File:  [LON-CAPA] / nsdl / harvestsmete / metadata_harvest.txt
Revision 1.1: download - view: text, annotated - select for diffs
Thu May 8 16:37:32 2003 UTC (19 years ago) by www
Branches: MAIN
CVS tags: HEAD
SMETE side harvest code for LON-CAPA

|Mark Lucas||/res/msu/lucas/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/lucas/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Lars Jensen||/res/msu/jensen/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-22 09:46:10|lucas@msu|default
stupid problem|Steve Brewer|This is a really stupid problem|/res/msu/brewer/demo/violin/stupid.problem|population,rabbits,reproduces|current|this is stupid|A really stupid question lures students.|problem|notset|2001-05-22 14:18:50|2001-05-22 14:18:50|brewer@msu|free
Violin|Mark Lucas|This is the violin course|/res/msu/brewer/demo/violin/violin.sequence||current||Bla|sequence|notset|2001-05-21 13:58:40|2001-05-24 09:49:05|lucas@msu|default
Test Problem|Fred Moore|Convience|/res/msu/moore/demo/violin/simple.problem||current|||problem|seniso|2001-05-21 14:05:36|2001-05-22 15:56:41|moore@msu|default
|Mark Lucas, Felicia Berryman||/res/msu/felicia/demo/violin/simple.problem|tiny|current|||problem|notset|2001-05-21 14:05:36|2001-05-22 14:45:40|lucas@msu|default
violin matt|Mark Lucas||/res/msu/anthony/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-24 10:31:06|lucas@msu|default
LON CAPA|Behrouz Minaei|TEST|/res/msu/minaei/demo/violin/technique.html|loncapa,formal,freely,vowels,mind,done,page,absolute|current|||html|seniso|2001-05-21 13:58:22|2001-05-22 15:10:15|minaeibi@msu.edu|default
Goo|Dan Loranz||/res/msu/loranz/goo.html|hello|current|||html|notset|2001-05-22 15:15:08|2001-05-22 15:15:08|loranz@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-24 10:30:20|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-22 15:19:56|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/simple.problem|cm,area,mm,length,box,width,test|current||test|problem|seniso|2001-05-21 14:05:36|2001-05-22 15:19:57|lucas@msu|default
Great New Violin Page|Gerd Kortemeyer||/res/msu/gerd/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-23 09:52:40|lucas@msu|default
|||/res/msu/lucas/a.lucas||current|||lucas|notset|2001-05-24 10:28:23|2001-05-24 10:28:23||default
Simple or Complex|Mark Lucas|Simple or Complex|/res/msu/lucas/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-24 09:19:52|lucas@msu|default
Sampel|Fred Moore|Sample|/res/msu/moore/a.moore|sample|current||sample|moore|seniso|2001-05-24 10:14:05|2001-05-24 10:14:05|Fred Moore|default
|||/res/msu/brewer/a.brewer||current|||brewer|notset|2001-05-24 10:06:49|2001-05-24 10:06:49||default
|Mark Lucas||/res/msu/felicia/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2002-07-19 08:40:28|lucas@msu|default
Map Moore Course Sample|Fred Moore|Sample|/res/msu/moore/demo/violin/violin.sequence|sample|current||sample|sequence|seniso|2001-05-21 13:58:40|2001-05-24 09:41:58|Fred Moore|default
ssssss|||/res/msu/minaei/a.minaei||current|||minaei|seniso|2001-05-24 10:16:14|2001-05-24 10:16:14||default
Charge in an Electric Field|Lars Jensen|A Charge in an Uniform Electric Field|/res/msu/jensen/a.jensen|charge,electric field |current|Calculus based physics|Computation of the trajectory in a uniform electric field|jensen|sdaiso|2001-05-24 10:20:17|2001-05-24 10:20:17||default
Felicia's Guts|Felicia|Something|/res/msu/felicia/a.felicia|complex|current|This is my first program using LON-CAPA|An excellent program for seeing what you typed in a little box.|felicia|seniso|2001-05-24 09:53:07|2001-05-24 09:53:07|MSU/LITE Lab/Berryman|default
|Mark Lucas||/res/msu/helen/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/helen/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
Charge in an Electric Field|Lars Jensen|The trajectory of a charge in an Electric Filed|/res/msu/jensen/demo/violin/violin.sequence|electric,trajectory,field,charge|current||dadads|sequence|sdaiso|2001-05-21 13:58:40|2001-06-02 02:18:36|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-24 10:35:08|lucas@msu|default
Matt's Resource|Matt||/res/msu/anthony/a.anthony||current|||anthony|notset|2001-05-24 10:19:20|2001-05-24 10:19:20||default
Test map|Behrouz Minaei|test2|/res/msu/minaei/demo/violin/violin.sequence|Hi,electric,salaam|current|tty|test data|sequence|seniso|2001-05-21 13:58:40|2001-05-24 10:20:08|minaei|default
Tom's test course|Thomas E. Hayman|Test|/res/msu/hayman/demo/violin/violin.sequence||current|||sequence|seniso|2001-05-21 13:58:40|2001-05-24 10:32:32|hayman@msu|default
This is a test|Matthew Anthony||/res/msu/anthony/a.anthony.html||current|||html|notset|2001-05-24 10:28:04|2001-05-24 10:28:04|anthony@msu|default
Goo Ball Check|Dan Loranz|Goo Ball|/res/msu/loranz/a.loranz.html|file|current|||html|notset|2001-05-24 10:28:00|2001-05-24 10:28:00|loranz@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-21 14:06:36|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/lucas/public_html/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-21 14:06:36|lucas@msu|default
|Mark Lucas||/res/msu/alex/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/loranz/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-21 14:06:36|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/loranz/public_html/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/anthony/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Mark Lucas||/res/msu/brewer/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/brewer/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
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|Mark Lucas||/res/msu/kales/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/kales/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-21 14:06:36|lucas@msu|default
|Mark Lucas||/res/msu/kales/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/kales/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-21 14:06:36|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/kashy/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/minaei/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/moore/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-21 14:06:36|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/ng/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/pang/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/welcome.html||current|||html|notset|2001-05-21 13:48:36|2001-05-21 13:48:36|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/end.html||current|||html|notset|2001-05-21 13:56:57|2001-05-21 13:56:57|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/lefthand.html||current|||html|notset|2001-05-21 13:57:06|2001-05-21 13:57:06|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/lefthand.problem||current|||problem|notset|2001-05-21 13:57:15|2001-05-21 13:57:15|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/practicing.problem||current|||problem|notset|2001-05-21 13:57:30|2001-05-21 13:57:30|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/practicing2.problem||current|||problem|notset|2001-05-21 13:57:38|2001-05-21 13:57:38|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/righthand.html||current|||html|notset|2001-05-21 13:57:47|2001-05-21 13:57:47|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/righthand.problem||current|||problem|notset|2001-05-21 13:57:58|2001-05-21 13:57:58|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/teaching.html||current|||html|notset|2001-05-21 13:58:05|2001-05-21 13:58:05|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/teaching.problem||current|||problem|notset|2001-05-21 13:58:16|2001-05-21 13:58:16|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/technique.html||current|||html|notset|2001-05-21 13:58:22|2001-05-21 13:58:22|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/technique.problem||current|||problem|notset|2001-05-21 13:58:31|2001-05-21 13:58:31|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/violin.sequence||current|||sequence|notset|2001-05-21 13:58:40|2001-05-21 14:06:36|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/torque1.problem||current|||problem|notset|2001-05-21 14:05:31|2001-05-21 14:07:59|lucas@msu|default
|Mark Lucas||/res/msu/scott/demo/violin/simple.problem||current|||problem|notset|2001-05-21 14:05:36|2001-05-21 14:05:36|lucas@msu|default
test title|Mark Lucas||/res/msu/scott/demo/violin/practicing.html||current|||html|notset|2001-05-21 13:57:21|2001-05-21 13:57:21|lucas@msu|default
Charge of protons|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd457.problem|charge,proton|current||Problem: Calculation of the number of protons needed to produce a certain charge|problem|seniso|2001-01-05 13:12:33|2001-10-09 00:31:06|mmp@msu (Michigan State University)|default
Two charges|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd458.problem|vacuum,coulomb,force,charges|current||Problem: calculate the magnitude of the force between two charges|problem|seniso|2001-01-05 13:11:54|2001-08-29 13:00:02|mmp@msu (Michigan State University)|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd459.problem|vacuum,charge,coulomb,force,magnitude,charges,orbit,gold,electron,nucleus|current|||problem|seniso|2001-01-05 13:04:31|2001-08-23 07:36:14|mmp@msu (Michigan State University)|default
Net Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd460.problem|equilibrium,forces,force,vector|current|||problem|seniso|2001-01-05 13:03:42|2001-08-23 07:37:29|mmp@msu (Michigan State University)|default
Point P|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd460b.problem|magnitude,force|current|||problem|seniso|2001-01-24 14:31:19|2001-08-28 20:00:32|mmp@msu (Michigan State University)|default
Coulomb|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd461.problem|coulombs,charges,forces,distance,charge,particles,force|current||Coulomb force problem|problem|seniso|2001-01-05 17:30:51|2001-08-29 12:54:43|mmp@msu (Michigan State University)|default
Pith Balls|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd462.problem|masses,coulombs,unit,charge,coulomb,gravity,pith,force,charges,mass,microcoulomb,weight,units|current|||problem|seniso|2001-01-05 13:02:26|2001-08-23 07:38:06|mmp@msu (Michigan State University)|default
Vector|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd463.problem|force,magnitude,vectors,vector,charges|current||Problem:
 Calculation of the magnitude of the force ona charge.|problem|seniso|2001-01-05 13:01:27|2001-09-20 22:04:12|mmp@msu (Michigan State University)|default
Magnitude of force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd464.problem|coulombs,charge,coulomb,force,electrons,charges,electron,transfer|current|||problem|seniso|2001-01-05 17:39:55|2001-08-23 07:38:21|mmp@msu (Michigan State University)|default
Force between Charges|Gerd Kortemeyer|Summaries, Electrostatics|/res/msu/mmp/kap18/problems/forceone.problem|distance,charges|current||Force problem where different situations are given and the correct answers must be 
 chosen|problem|seniso|2001-08-23 09:40:01|2001-08-29 12:55:57|mmp@msu (Michigan State University)|default
Distance Change|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd4641.problem|distance,charge,force,electric|current||Problem:
 Calculation of the change in electrical force on a charged sphere when the
 distance between the spheres is changed.|problem|seniso|2001-01-12 17:12:10|2001-09-20 22:05:10|mmp@msu (Michigan State University)|default
Which Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/problems/cd460a.problem|forces,force,vector|current||Problem representing the direction of a force on a particle |problem|seniso|2001-08-27 11:17:23|2001-09-20 22:03:45|mmp@msu (Michigan State University)|default
Force Vector|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/picts/F12.gif||current||Force vector picture |gif|seniso|2001-08-27 20:01:49|2001-08-27 20:01:49|mmp@msu (Michigan State University)|default
Force Vectors 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/picts/F1221.gif||current||This picture illustrates that the force on f1 due to f2 is equal in magnitude, 
 but opposite direction of the force on f2 due to f1.  |gif|seniso|2001-08-27 20:06:52|2001-08-27 20:06:52|mmp@msu (Michigan State University)|default
Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/picts/force_eqn.gif||current|||gif|seniso|2001-09-27 19:56:23|2001-09-27 19:56:23|mmp@msu (Michigan State University)|default
Electric Field Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/picts/e1_eqn.gif||current|||gif|seniso|2001-10-09 20:12:37|2001-10-09 20:12:37|mmp@msu (Michigan State University)|default
Electric Field Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/picts/efield_eqn.gif||current|||gif|seniso|2001-10-09 20:20:11|2001-10-09 20:20:11|mmp@msu (Michigan State University)|default
Electric Field Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/picts/efield_eqn0.gif||current|||gif|seniso|2001-10-09 20:27:32|2001-10-09 20:27:32|mmp@msu (Michigan State University)|default
Sigma Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/picts/sigma_eqn.gif||current|||gif|seniso|2001-10-09 21:32:11|2001-10-09 21:32:11|mmp@msu (Michigan State University)|default
Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap18/kap18.sequence|Charge,Voltage,Electrostatics|current|||sequence|seniso|2001-01-05 16:36:43|2001-08-27 11:30:09|mmp@msu (Michigan State University)|default
Faraday's Cage Video|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics, Faraday's Cage|/res/msu/mmp/kap18/demo/vid449.htm|faradays,metallic,generator,demonstration,metal,shielding,gauss,lightning,voltage,sparks,video,graaff,cage|current|||htm|seniso|2001-01-05 16:40:11|2001-08-27 11:13:00|mmp@msu (Michigan State University)|default
Electric Discharge|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics, Discharge|/res/msu/mmp/kap18/demo/vid440.htm|lightning,voltage,clip,discharge,charges,video,insulator,potential|current|||htm|seniso|2001-01-05 16:43:40|2001-08-27 11:07:28|mmp@msu (Michigan State University)|default
Bad Hair Day|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/demo/vid441.htm|charge,charging,friction|current||Applet using the Van De Graaff generator to show how charge is transfered between
 objects|htm|seniso|2001-08-26 23:41:15|2001-08-26 23:41:15|mmp@msu (Michigan State University)|default
Demo: Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/demo/egun.htm|tubes,picture,video,beam,electron|current|||htm|seniso|2001-08-27 11:05:45|2001-08-27 11:05:45|mmp@msu (Michigan State University)|default
Demo: Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/demo/egunsm.htm|tubes,picture,plates,deflection,tv,video,beam,electron|current|||htm|seniso|2001-08-27 11:06:40|2001-08-27 11:06:40|mmp@msu (Michigan State University)|default
Demo: Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/demo/vid441sm.htm|hair,charge,charging,generator,video,friction|current|||htm|seniso|2001-08-27 11:08:05|2001-08-27 11:08:05|mmp@msu (Michigan State University)|default
Demo: Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/demo/vid449-a.htm|repelled,charge,conducting,metal,shielding,charged,video,insulator,graaff,van|current|||htm|seniso|2001-08-27 11:09:05|2001-08-27 11:09:05|mmp@msu (Michigan State University)|default
Demo: Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/demo/vid449sm.htm|faradays,generator,gauss,lightning,voltage,sparks,video,graaff,van|current|||htm|seniso|2001-08-27 11:10:03|2001-08-27 11:10:03|mmp@msu (Michigan State University)|default
Demo: Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/demo/vid455.htm|charge,recoil,generator,electric,sparks,discharge,conductor,graaff,van|current|||htm|seniso|2001-08-27 11:10:50|2001-08-27 11:10:50|mmp@msu (Michigan State University)|default
Demo: Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/demo/vid455sm.htm|momentum,charge,recoil,generator,electric,sparks,discharge,conductor,video,graaff,van|current|||htm|seniso|2001-08-27 11:11:55|2001-08-27 11:11:55|mmp@msu (Michigan State University)|default
Electric Charge|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR439.htm|energy,unit,charge,ne,electrons,electric,charges,uncharged,conservation,quantization,electron,units|current||Introduction to electric charge.|htm|seniso|2001-08-22 14:28:42|2001-10-08 23:51:20|mmp@msu (Michigan State University)|default
Conductors and Insulators|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR440.htm|conduct,charge,semiconductors,electricity,conductors,electrons,conduction,electric,discharge,charged,conductor,insulators,insulator,conductivity,electronics,resistance,discharged|current||Introduction to conductors and insulators with an applet on discharge.|htm|seniso|2001-08-17 17:38:24|2001-09-27 19:42:25|mmp@msu (Michigan State University)|default
Electrostatic Charging|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR441.htm|positive,protons,charge,electrostatic,negatively,electrons,conduction,electric,charged,conductor,static,negative,uncharged,positively,electrically,electron|current||Explanation of electrostatic charging icluding charging by friction, conduction and 
 induction with a demonstration.|htm|seniso|2001-08-22 14:29:27|2001-09-27 19:44:54|mmp@msu (Michigan State University)|default
Electric Force: Coulomb Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR443.htm|coulombs,forces,charge,coulomb,newtons,electrostatic,force,attraction,charges,negative,law,attractive|current||Introduction to Coulomb's law.|htm|seniso|2001-08-22 14:31:18|2002-01-11 09:57:00|mmp@msu (Michigan State University)|default
Applet: Electric Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR4460app.htm|charge,force,electric,charges,electron|current||Applet that allows you to visualize the effect of an electric filed on a beam 
 of electrons.|htm|seniso|2001-08-23 07:10:15|2001-10-08 23:55:39|mmp@msu (Michigan State University)|default
Electric Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR446.htm|field,charge,force,electric,vector,charges|current||Introduction to Electric field -- definition of test charge and electric field
 of a point charge.|htm|seniso|2001-08-23 07:09:30|2001-10-08 23:55:00|mmp@msu (Michigan State University)|default
Application: Electric Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR446c.htm|beams,deflector,television,field,charge,force,deflected,electric,application,charges,deflect,beam,phone,electron|current||Applications of the electric field including a demonstration.|htm|seniso|2001-08-23 07:11:45|2001-10-09 00:01:59|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Electrostatics|/res/msu/mmp/kap18/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Electrostatic Charging Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR441a.htm|charge,electrostatic,charging,atoms,electrons,atom,electron|current||Electrostatic charging example.|htm|seniso|2001-08-22 14:30:22|2001-09-27 19:45:22|mmp@msu (Michigan State University)|default
The Electroscope|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR442.htm|repulsion,charge,identifying,detecting,electric,charges,electroscope,light,bodies,electroscopes|current||Explanation and picture of an electroscope.|htm|seniso|2001-08-22 14:30:44|2001-09-27 19:47:03|mmp@msu (Michigan State University)|default
Example: Electric Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR443a.htm|protons,electrostatic,force,electric,nucleons,nuclear|current||Electric force example.|htm|seniso|2001-08-22 14:31:49|2001-09-27 19:58:31|mmp@msu (Michigan State University)|default
Comparison: Coulomb and Gravity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR443b.htm|masses,forces,protons,coulomb,gravitational,gravity,newtons,force,electrons,gravitation,mass|current||Comparison bewtween the Coulomb force and gravitational force.|htm|seniso|2001-08-22 14:32:11|2001-09-27 20:35:17|mmp@msu (Michigan State University)|default
Permittivity of the Vacuum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR444.htm|coulombs,vacuum,coulomb,fields,permittivity,atoms,force,electrons,charges,medium|current||Definition of the permittivity of a vacuum.|htm|seniso|2001-08-22 14:32:41|2001-09-27 21:36:47|mmp@msu (Michigan State University)|default
Permittivity of a Medium|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR444a.htm|coulomb,permittivity,dielectric,medium|current||Definition of the permittivity of a medium.|htm|seniso|2001-08-22 14:33:17|2001-09-27 21:44:10|mmp@msu (Michigan State University)|default
Example: Permittivity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR444b.htm|vacuum,ion,coulomb,negatively,permittivity,force,electrolyte,charged,vaccum|current||Permittivity example.|htm|seniso|2001-08-22 14:33:54|2001-09-27 21:45:13|mmp@msu (Michigan State University)|default
Forces in a Charge Distribution|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR445.htm|coulombs,forces,force|current||Force due to a charge distribution with a diagram representing the forces.|htm|seniso|2001-08-22 14:34:27|2001-09-27 21:45:49|mmp@msu (Michigan State University)|default
Example: Charge Distribution|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR445a.htm|positive,forces,charge,coulomb,force,charges|current||Example of a force due to a charge distribution (inlcudes a diagram of the 
 example).|htm|seniso|2001-08-22 14:34:55|2001-09-27 19:43:42|mmp@msu (Michigan State University)|default
Electric Field Example 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR446a.htm|field,fields,point,magnitude,charges|current||Electric field example that calculates the net field at the center of four 
 point charges.|htm|seniso|2001-08-23 07:10:50|2001-10-08 23:57:06|mmp@msu (Michigan State University)|default
Electric Field Example 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR446b.htm|electric,field,fields,force|current||Example calculating the electric field in two dimensions.|htm|seniso|2001-08-23 07:11:12|2001-12-04 00:54:13|mmp@msu (Michigan State University)|default
Electric Field Lines|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR447.htm|field,force,electric,perpendicular|current||Definition of electric field lines.|htm|seniso|2001-08-23 07:12:31|2001-10-09 00:03:11|mmp@msu (Michigan State University)|default
Rules for Electric Field Lines|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR447a.htm|angle,field,charge,permittivity,force,efield,electric,direction,vector,charges,medium|current||Electric field lines -- rules and illustrations.|htm|seniso|2001-08-27 07:47:37|2001-10-09 00:03:46|mmp@msu (Michigan State University)|default
Applet: Field Lines|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR447app.htm|compute,field,work,computations,speed,lines,applet,computer|current||Electric field lines applet.|htm|seniso|2001-08-27 07:48:37|2001-10-09 00:06:23|mmp@msu (Michigan State University)|default
Gauss Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR448.htm|coulombs,field,net,charge,permittivity,force,gauss,flow,electrostatics,direction,flux,medium|current||Introduction to Gauss' Law.|htm|seniso|2001-08-27 07:49:40|2001-10-09 00:08:28|mmp@msu (Michigan State University)|default
Example: Gauss Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR448a.htm|coulombs,field,equivalent,pe,permittivity,electric,magnitude,vector,flux,medium|current||Example using Gauss' Law.|htm|seniso|2001-08-27 07:57:44|2001-10-09 00:09:00|mmp@msu (Michigan State University)|default
Example: Flux|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR448b.htm|field,charge,parallel,gauss,electric,direction,vectors,vector,fluxes,area,law,perpendicular,flux|current||Example calculating the flux through a cube including an illustration.|htm|seniso|2001-08-27 10:44:53|2001-10-09 00:09:51|mmp@msu (Michigan State University)|default
Shielding|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR449.htm|repulsion,field,charge,inducing,diverging,metallic,electrostatic,shielded,generator,franklins,conducting,metal,shielding,gauss,electrons,gaussian,electric,tall,induced,magnitude,insulating,de,induces,charged,conductor,law,electroscope,uncharged,surface,flux,faraday,divergence|current||Electrostatic shielding and other consequences of Gauss' Law.  Includes diagrams
 illustrating the shielding effects.|htm|seniso|2001-08-27 10:45:51|2001-10-09 00:11:38|mmp@msu (Michigan State University)|default
Field near a Metal Surface|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR449a.htm|field,charge,metallic,permittivity,force,metal,gauss,gaussian,electric,conductor,charges,flux|current||Explanation of the concept of an electric field near a metal surface.  |htm|seniso|2001-08-27 10:47:32|2001-10-09 20:30:17|mmp@msu (Michigan State University)|default
Example: Metal Surface|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR449b.htm|field,charge,metal,gauss,electrostatics,electric,sphere,density|current||Example calculating the electric field near the surface of a metal sphere.|htm|seniso|2001-08-27 10:48:36|2001-10-09 21:41:09|mmp@msu (Michigan State University)|default
Electric Potential Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR450.htm|repelled,energy,repulsion,field,work,pe,electrostatic,force,electric,potential,displacement|current||Concept of potential energy in an electrostatic field.|htm|seniso|2001-08-27 10:49:31|2001-10-09 00:14:25|mmp@msu (Michigan State University)|default
Potential Energy in a Constant Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR451.htm|energy,field,charge,work,force,electrical,electric,charges,potential|current||Calculations of work and potential energy in a constant field. Inludes illustrations
 of the electric field lines.|htm|seniso|2001-08-27 10:51:48|2001-10-09 00:16:56|mmp@msu (Michigan State University)|default
Example: Potential Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR450a.htm|energy,charge,potential|current||Example calculating the potential energy of charge placed a distance from 
 another charge.|htm|seniso|2001-08-27 10:51:02|2001-10-09 00:15:43|mmp@msu (Michigan State University)|default
Example: Constant Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR451a.htm|energy,field,charge,work,force,accelerate,kinetic,constant,potential|current||Examples of potential energy change in a constant field.  Includes illustrations
 of the examples.|htm|seniso|2001-08-27 10:52:44|2001-10-09 00:18:20|mmp@msu (Michigan State University)|default
Electrostatic Potential|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR452.htm|electric,conductor,energy,field,volt,charge,coulomb,energies,work,electronvolt,potential,electrostatic,force,electron|current||Introduction to electrostatic potential.  Includes a link to the JavaScript
 unit conversion page.|htm|seniso|2001-08-27 10:53:43|2001-10-09 21:43:56|mmp@msu (Michigan State University)|default
Potential of Charge Distributions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR453.htm|superposition,charge,coulomb,energies,electrostatic,permittivity,electric,charges,potential,scalar|current||Potential Energy in a Constant Field -- includes concepts of Coulomb Potential and
 Principle of Superposition.|htm|seniso|2001-08-27 10:55:59|2001-10-09 00:21:06|mmp@msu (Michigan State University)|default
Example: Electrostatic Potential|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR452a.htm|energy,proton,atom,hydrogen,position,potential,electron,nucleus|current||Electrostatic potential example.|htm|seniso|2001-08-27 10:55:07|2001-10-09 00:20:03|mmp@msu (Michigan State University)|default
Example: Three Charges|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR453a.htm|charges,potentials,energy,charge,positions,potential|current||Example calculating the potential at different corners of a square.  Includes a 
 diagram of the example.|htm|seniso|2001-08-27 10:57:15|2001-10-09 21:51:14|mmp@msu (Michigan State University)|default
Equipotentials|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR454.htm|line,energy,surfaces,field,charge,radial,work,electrostatic,force,lines,radius,electric,equipotential,concentric,acceleration,equipotentials,charges,perpendicular,surface,potential,circles|current||Explanation and illustration of equipotential surfaces.|htm|seniso|2001-08-27 10:58:20|2001-10-09 00:26:20|mmp@msu (Michigan State University)|default
Equipotential Cases|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR454a.htm|surfaces,field,charge,gravitational,work,gravity,electric,dipole,equipotential,equipotentials,perpendicular,surface,potential,uniform|current||Illustrations of equipotential field lines.|htm|seniso|2001-08-27 11:01:12|2001-10-09 00:27:42|mmp@msu (Michigan State University)|default
Applet: Electrostatic Potential|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/eField.htm|field,charge,electrostatic,plot,applet,charges,potentials,potential|current||Electrostatic potential applet.|htm|seniso|2001-08-27 11:03:31|2001-10-09 00:29:45|mmp@msu (Michigan State University)|default
Field Near Sharp Points|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18/RR455.htm|leakage,clouds,field,charge,fields,ions,force,lines,lightning,conductors,electrons,neutralizes,flow,electric,equipotential,charged,conductor,atmosphere,charges,friction,insulator,dielectric,air,ionization,potential,cloud,electron|current||Explanation of the electric field near sharp points on conductors including
 a demonstration.|htm|seniso|2001-08-27 10:59:40|2001-10-09 00:28:35|mmp@msu (Michigan State University)|default
True False Practice, Page 473|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field, True False Questions|/res/msu/mmp/kap18/cd473.htm|field,charge,coulomb,conducting,equipotential,charged,charges,potential|current|||htm|seniso|2001-02-03 13:09:56|2001-08-23 17:47:16|mmp@msu (Michigan State University)|default
Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap18/sum18.htm|coulombs,charge,coulomb,permittivity,force,electrostatics,isolated,electron|current||Electrostatics summary page.|htm|seniso|2001-08-27 10:44:06|2001-10-09 00:30:26|mmp@msu (Michigan State University)|default
Electric Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap18/sum18a.htm|energy,field,charge,work,electrostatic,force,gauss,electric,charged,charges,er,surface,potential|current||Electric Field Summary Page|htm|seniso|2001-08-27 11:04:32|2001-10-09 00:30:50|mmp@msu (Michigan State University)|default
Example: Force due to a Charge Distribution|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/RR445answer.htm|positive,forces,net,charge,coulomb,force,charges,symmetry,position|current||Example and diagram of a force due to a charge distribution.|htm|seniso|2001-08-22 14:35:25|2001-09-27 21:54:45|mmp@msu (Michigan State University)|default
Example: Force due to Two Charges|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electrostatics|/res/msu/mmp/kap18/RR445b.htm|forces,charge,force,charges|current||Example of the force due to two charges.|htm|seniso|2001-08-23 07:07:45|2001-12-30 17:39:14|mmp@msu (Michigan State University)|default
Chapter Frontpage Electric Field|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/RR445newch.htm|field,electric|current||Electric Field title page.|htm|seniso|2001-08-23 07:08:23|2001-10-08 23:54:36|mmp@msu (Michigan State University)|default
Chapter Front Page|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/kap18/cd438.htm|electrostatics|current|||htm|seniso|2001-08-27 11:02:33|2001-08-27 11:02:33|mmp@msu (Michigan State University)|default
Electrostatics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap18/calckap18.sequence|Charge,Voltage,Electrostatics|current|||sequence|seniso|2001-01-05 16:36:43|2001-11-28 18:08:20|mmp@msu (Michigan State University)|default
Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd465.problem|field,charge,force,electric|current||Problem:
 Calculation of the electric field at a point where a charge is located.|problem|seniso|2001-01-12 17:38:43|2001-09-16 23:56:40|mmp@msu (Michigan State University)|default
Electric Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd466.problem|charge,coulomb,field,force,electric|current||Problem:
 Finding the electric field at a point above a charge.|problem|seniso|2001-01-12 17:40:11|2001-09-07 12:10:40|mmp@msu (Michigan State University)|default
Zero Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd466a.problem|field,electric|current||Problem:
 Click on the area where the electric field is zero|problem|seniso|2001-08-27 11:33:20|2001-09-07 12:12:15|mmp@msu (Michigan State University)|default
Magnitude of Charge|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd467.problem|forces,distance,field,charge,fields,electric,vector,charges|current||Problem:
 Calculation of the magnitude of a charge.|problem|seniso|2001-01-12 17:41:32|2001-09-07 12:15:58|mmp@msu (Michigan State University)|default
Sphere|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd468.problem|electric,charged,sphere,field,charge|current||Problem:
 Calculation of the magnitude of the electric field outside a sphere.  |problem|seniso|2001-01-12 17:42:28|2001-09-07 12:18:04|mmp@msu (Michigan State University)|default
Electric Potential|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd469.problem|field,charge,coulomb,force,electric,charges,potentials,potential,microcoulomb|current||Problem:
 Calculation of the electric potential at a point between 2 charges.|problem|seniso|2001-01-12 17:43:10|2001-09-07 12:24:53|mmp@msu (Michigan State University)|default
Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd470.problem|electric,energy,field,charge,work|current||Problem:
 Calculation of how much work it takes to move a charge a distance.|problem|seniso|2001-01-12 17:44:15|2001-09-07 12:30:10|mmp@msu (Michigan State University)|default
Work 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd471.problem|energy,field,charge,work,accelerating,electric,vector,displacement|current||Problem:
 Calculation of how much work it takes to move a charge a distance in 2-D.|problem|seniso|2001-01-12 17:44:59|2001-09-07 12:32:04|mmp@msu (Michigan State University)|default
Electric Potential 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd472.problem|scalars,charge,electrical,electric,corner,charges,potentials,rectangle,potential,microcoulomb,corners|current||Problem:
 Calculation of the electric potential at a corner of a rectangle.|problem|seniso|2001-01-12 17:45:46|2001-10-09 00:31:45|mmp@msu (Michigan State University)|default
Flux|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd468a.problem|folded,field,electric,panels,flux,uniform,panel|current||Problem:
 True/false flux |problem|seniso|2001-01-24 15:11:42|2001-09-07 12:21:20|mmp@msu (Michigan State University)|default
Zero Potential|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap18a/problems/cd469a.problem|scalars,charges,potentials,potential|current||Problem:
 Click on the point where the potential is zero.|problem|seniso|2001-08-27 11:35:05|2001-09-07 12:26:24|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Electric Field|/res/msu/mmp/kap18a/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Electric Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap18a/kap18a.sequence||current|||sequence|seniso|2001-01-11 08:33:44|2002-01-07 15:51:52|mmp@msu (Michigan State University)|default
Electric Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap18a/calckap18a.sequence||current|||sequence|seniso|2001-01-11 08:33:44|2001-11-28 18:09:28|mmp@msu (Michigan State University)|default
lbs267|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, second semester - Electricity and Magnetism|/res/msu/mmp/lbs267.sequence||current||Second Semester Physics|sequence|seniso|2001-01-04 14:00:05|2001-12-20 09:20:14|mmp@msu (Michigan State University)|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd485.problem|coulombs,capacitance,charge,microfarads,voltage,flows,uncharged,volts,battery,capacitor|current||Problem:
 Calculation of how much charge flows into a capacitor.|problem|seniso|2001-01-24 15:25:34|2001-09-09 23:30:48|mmp@msu (Michigan State University)|default
Spherical Capacitor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd485a.problem|capacitors,charge,spherical,voltage,radius,cr,sphere,microcoulomb|current||Problem:
 Calculation of voltage on a sphere.|problem|seniso|2001-01-24 15:27:40|2001-09-09 23:31:47|mmp@msu (Michigan State University)|default
Separation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd486.problem|capacitance,parallel,plate,plates,area,capacity,capacitor|current||Problem:
 Calculation of the separation between the plates in a parallel plate capacitor.|problem|seniso|2001-01-24 15:26:43|2001-09-09 23:32:45|mmp@msu (Michigan State University)|default
Dielectric Constant|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd487.problem|capacitance,parallel,plate,plates,dielectric,capacitor|current||Problem:
 Calculation of the dielectric constant between the plates of a parallel 
 plate capacitor.|problem|seniso|2001-01-24 15:28:17|2001-09-17 12:26:54|mmp@msu (Michigan State University)|default
Energy Stored|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd488.problem|energy,capacitance,charge,charged,capacitor,microcoulomb|current||Problem:
 Calculation of the energy stored in a capacitor.|problem|seniso|2001-01-24 15:29:14|2001-09-09 23:35:16|mmp@msu (Michigan State University)|default
Dielectric constant 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd489.problem|gap,plate,plates,voltage,volts,dielectric,capacitor|current||Problem:
 Calculation of the dielectric constant between two plates in a parallel plate
 capacitor.|problem|seniso|2001-01-24 15:29:48|2001-09-09 23:36:38|mmp@msu (Michigan State University)|default
Energy Density|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd490.problem|gap,energy,capacitance,field,parallel,disks,electric,charged,battery,capacitor|current||Problem:
 Calculation of the energy density of the electric field between the plates of 
 a parallel plate capacitor.|problem|seniso|2001-01-24 15:30:29|2001-09-09 23:37:57|mmp@msu (Michigan State University)|default
Capacitance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd491.problem|capacitors,capacitance,series|current||Problem:
 Calculation of the capacitance of capacitors in series.|problem|seniso|2001-01-24 15:31:17|2001-09-09 23:39:25|mmp@msu (Michigan State University)|default
Capacitance 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd492.problem|capacitors,capacitance,parallel,capacitances|current||Problem:
 Calculation of the capacitance of capacitors in parallel.|problem|seniso|2001-01-24 15:31:48|2001-09-09 23:40:14|mmp@msu (Michigan State University)|default
Series/parallel capacitance |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd493.problem|series,capacitors,capacitance,parallel,capacitor|current||Problem:
 Calculation of the capacitance of capacitors in series/parallel.|problem|seniso|2001-01-24 15:32:22|2001-09-09 23:41:16|mmp@msu (Michigan State University)|default
Energy Stored 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/problems/cd494.problem|capacitors,energy,capacitance,charge,series,voltage,volts,battery,capacitor|current||Problem:
 Calculation of the energy stored in a capacitor.|problem|seniso|2001-01-24 15:33:00|2001-10-09 00:38:26|mmp@msu (Michigan State University)|default
Capacitors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap19/kap19.sequence||current|||sequence|seniso|2001-08-27 08:21:34|2001-08-27 08:21:34|mmp@msu (Michigan State University)|default
Capacitance of a Spherical Conductor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/RR478.htm|capacitance,permittivity,conducting,force,spherical,concentric,conductor,sphere,potential,spheres|current||Example and illustration of the capacitance of a spherical conductor.|htm|seniso|2001-08-27 11:49:35|2001-09-16 21:17:56|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/RR478part1.htm|capacitance,charge,permittivity,conducting,spherical,radius,conductor,sphere,isolated,surface,potential|current|||htm|seniso|2001-08-27 11:52:38|2001-08-27 11:52:38|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/RR478part2.htm|capacitance,grounded,charge,infinity,permittivity,concentric|current|||htm|seniso|2001-08-27 11:53:11|2001-08-27 11:53:11|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Capacitors|/res/msu/mmp/kap19/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Circuits|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/circuits.htm|charge,inductance,parallel,symbol,electrostatic,circuits,circuit,symbols,ground,voltage,wire,switch,charges,potentials,wires,battery,potential,capacitor,coil,resistance,alternating,resistor|current||Circuit symbols for a resistor, inductance, swtich, capacitor, ground, battery,
 and alternating voltage.|htm|seniso|2001-09-16 21:40:15|2001-10-09 00:38:11|mmp@msu (Michigan State University)|default
Capacitance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR475.htm|capacitors,capacitance,charge,coulomb,fields,circuits,conductors,electrical,conductor,charges,farad,volt,capacity,capacitor,faraday|current||Introduction to the capacitance of a conductor.|htm|seniso|2001-08-27 11:40:43|2002-01-24 16:02:28|mmp@msu (Michigan State University)|default
Example: Capacitance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR475a.htm|capacitance,charge,conducting,potential|current||Example of capacitance.|htm|seniso|2001-08-27 11:41:55|2001-09-16 20:18:15|mmp@msu (Michigan State University)|default
Factors Affecting Capacitance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR476.htm|capacitors,shape,coulombs,affecting,capacitance,grounded,field,charge,size,permittivity,force,conductors,factor,conductor,charges,sphere,dielectric,battery,potential,capacitor,proximity,medium|current||Explanation of the factors that affect the capacitance of a conductor -- size, 
 shape, the medium in which the conductor is kept, and its proximity to other 
 conductors.|htm|seniso|2001-08-27 11:42:30|2001-09-16 20:21:40|mmp@msu (Michigan State University)|default
Parallel Plate Capacitor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR477.htm|capacitors,capacitance,plate,permittivity,gauss,plates,gaussian,vectors,charged,conductor,charges,law,dielectric,capacitor,flux|current||Parallel plate capacitors and Gauss' Law.|htm|seniso|2001-08-27 11:43:33|2001-09-16 20:35:43|mmp@msu (Michigan State University)|default
Example: Farad|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR477a.htm|capacitors,capacitance,parallel,plate,capacitances,capacitor|current||Example calculating the surface area of a parallel plate capacitor.
 |htm|seniso|2001-08-27 11:46:10|2001-09-16 20:42:48|mmp@msu (Michigan State University)|default
Example: Cloud|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR477b.htm|thundercloud,field,charge,parallel,plate,voltage,area,separation,capacity,potential,capacitor,cloud|current||Example calculating the potential of a thunder cloud.|htm|seniso|2001-08-27 11:48:59|2001-09-16 20:47:48|mmp@msu (Michigan State University)|default
Capacitance of a Sphere|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR478a.htm|spherically,capacitance,field,charge,coulomb,pe,electrostatic,permittivity,spherical,conductor,sphere,isolated,potential,capacitor|current||How to calculate the capacitance of a sphere.|htm|seniso|2001-08-27 11:50:04|2001-10-08 16:52:56|mmp@msu (Michigan State University)|default
Example: Sphere|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR478b.htm|capacitance,conducting,formula,farad,surface,capacity|current||Example calculating the capacitance of the earth if it was covered with a conducting
 material.|htm|seniso|2001-08-27 11:50:58|2001-09-16 21:36:18|mmp@msu (Michigan State University)|default
Two Spheres|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR478c.htm|capacitance,grounded,charge,force,ground,concentric,sphere,isolated,capacity,potential,spheres|current||Explanation of how to calculate the capacitance of two concentric spheres.  |htm|seniso|2001-08-27 11:51:33|2002-01-24 16:04:12|mmp@msu (Michigan State University)|default
Combination of Capacitors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR479.htm|capacitors,capacitance,parallel,equivalent,electricity,circuits,circuit,series,voltage,electronic,battery,potential,capacitor,batteries|current||Explanation and illustration of capacitors in series and in parallel.|htm|seniso|2001-08-27 11:54:34|2001-09-16 21:56:26|mmp@msu (Michigan State University)|default
Capacitors in Series|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR4791.htm|capacitors,connected,capacitance,charge,series,capacitor|current||Explanation and illustration of capactitors on series.|htm|seniso|2001-08-27 11:55:40|2001-09-16 22:04:28|mmp@msu (Michigan State University)|default
Example: Capacitors in Series|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR479a.htm|capacitors,capacitance,equivalent,series|current||Example and illustration of capacitors in series.|htm|seniso|2001-08-27 11:56:19|2001-09-16 22:30:50|mmp@msu (Michigan State University)|default
Capacitors in Parallel|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR480.htm|capacitors,capacitance,parallel,equivalent,plates,potential,capacitor|current||Introduction to capacitors in parallel.|htm|seniso|2001-08-27 11:56:51|2001-09-16 22:32:39|mmp@msu (Michigan State University)|default
Example: Parallel|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR480a.htm|capacitors,connected,capacitance,parallel,capacitances|current||Example explaining how to calculate the equivalent capacitance of three 
 capacitors in parallel.|htm|seniso|2001-08-27 11:57:38|2001-09-16 22:35:07|mmp@msu (Michigan State University)|default
Example: Circuits|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR481.htm|capacitors,capacitance,circuits,circuit,voltage,conductor,isolated,battery,electrically,potential|current||Examples and illustrations of circuits with capacitors.|htm|seniso|2001-08-27 11:58:52|2001-09-16 23:29:46|mmp@msu (Michigan State University)|default
Applet: Capacitor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR480app.htm|capacitors,capacitance,parallel,equivalent,series,applet,capacitances|current||Capacitor applet that calculates the equivalent capacitance of a network of 
 series/parallel capacitors.|htm|seniso|2001-08-27 11:58:17|2001-09-16 22:41:59|mmp@msu (Michigan State University)|default
Energy Stored in a Charged Conductor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR482.htm|energy,capacitance,repulsion,charge,work,force,charged,conductor,charges,stored,potential,capacitor|current||Explanation and illustration of the energy stored in a charged conductor.|htm|seniso|2001-08-27 12:00:10|2002-01-24 16:07:12|mmp@msu (Michigan State University)|default
Example: Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR482a.htm|energy,capacitance,generator,voltage,potential,graaf,van|current||Example calculating the amount of energy stored in a Van de Graaf generator.|htm|seniso|2001-08-27 13:00:52|2001-09-16 23:55:24|mmp@msu (Michigan State University)|default
Dielectrics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR484.htm|polar,coulombs,dielectrics,positive,capacitance,dipoles,polarization,field,inducing,coulomb,molecule,neutral,molecules,force,electrons,electrical,nonpolar,electric,induced,dipole,direction,conductor,charges,negative,insulator,dielectric,potential,capacitor|current||Introduction to dielectrics and polarization.  Includes an animation that shows 
 how the external electric field induces a dipole moment in a neutral molecule.
 |htm|seniso|2001-08-27 13:02:19|2001-09-17 11:29:43|mmp@msu (Michigan State University)|default
Polarization|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR484a.htm|polar,dielectrics,positive,dipoles,polarization,field,charge,molecule,changing,molecules,alignment,nonpolar,electric,thermal,dipole,charges,negative,align,density,dielectric,capacitor,flux|current||Introduction to polarization.|htm|seniso|2001-08-27 13:03:46|2001-10-09 00:33:53|mmp@msu (Michigan State University)|default
Capacitors with Dielectrics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/cd480.htm|capacitors,dielectrics,energy,capacitance,charge,permittivity,charged,dielectric,battery,potential,capacitor|current||Example calculating the capacitance of a capacitor with a dielectric filling.|htm|seniso|2001-08-27 13:08:11|2001-10-09 00:37:10|mmp@msu (Michigan State University)|default
Example: Dielectrics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/RR485.htm|capacitors,insulated,positive,energy,capacitance,polarization,field,charge,nc,plate,force,plates,electric,charged,charges,separation,dielectric,battery,potential,capacitor|current||Example of capacitors with dielectrics.|htm|seniso|2001-08-27 13:05:15|2001-10-09 00:32:21|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors, True False Questions|/res/msu/mmp/kap19/cd495.htm|capacitors,energy,capacitance,charge,voltage,dielectric,battery,capacitor,connect|current||True False practice for capacitors.|htm|seniso|2001-02-03 13:10:51|2001-10-09 00:35:14|mmp@msu (Michigan State University)|default
Capacitance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap19/sum19.htm|capacitors,energy,capacitance,coulomb,capacitiance,farad,sphere,volt,stored,dielectric,capacitor,spheres|current||Capacitance Summary Page|htm|seniso|2001-08-27 13:09:49|2001-10-09 00:37:49|mmp@msu (Michigan State University)|default
Sharing of Charge between Two Conductors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Capacitors|/res/msu/mmp/kap19/RR483.htm|insulating,conductor,capacitance,electroscope,charge,work,potential,conductors,sharing|current||Sharing of charge between two conductors.|htm|seniso|2001-08-27 13:01:37|2001-09-17 11:26:46|mmp@msu (Michigan State University)|default
Front Page Capacitors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Capacitors|/res/msu/mmp/kap19/cd474.htm|capacitors|current||Front Page Capacitors|htm|seniso|2001-08-27 13:07:25|2001-10-09 00:34:27|mmp@msu (Michigan State University)|default
Capacitors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap19/calckap19.sequence||current|||sequence|seniso|2001-08-27 08:21:34|2001-11-28 18:09:49|mmp@msu (Michigan State University)|default
Drift velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd514.problem|drift,number,charge,electron,velocity|current||Problem:
 Calculation of drift velocity.|problem|seniso|2001-01-24 15:44:44|2001-09-20 19:43:17|mmp@msu (Michigan State University)|default
Resistance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd515.problem|resistivity,spool,copper,wire,resistance|current||Problem:
 Calculation of the resistance of a spool of copper wire.|problem|seniso|2001-01-24 15:45:28|2001-09-20 19:45:55|mmp@msu (Michigan State University)|default
Resistance 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd516.problem|circuit,volts,resistance,ir,resistor|current||Problem:
 Calculation of the resistance in a simple circuit.|problem|seniso|2001-01-24 15:45:59|2001-09-20 19:47:20|mmp@msu (Michigan State University)|default
Resistance 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd517.problem|heat,energy,resistors,voltage,electric,ohms,power,volts,coil,resistance,resistor|current||Problem:
 Calculation of the resistance of a heater coil in an electric heater.|problem|seniso|2001-01-24 15:46:48|2001-09-20 20:40:43|mmp@msu (Michigan State University)|default
Voltage Drop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd518.problem|circuit,voltage,ohms,volts,drop,resistance,resistor|current||Problem:
 Calculation of the magnitude of the voltage drop across a resistor.|problem|seniso|2001-01-24 15:47:20|2001-09-20 19:50:48|mmp@msu (Michigan State University)|default
Magnitude|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd519.problem|dissipated,ohms,dissipation,power,volts,cicuit,circuit,voltage,resistor|current||Problem:
 Calculation of the magnitude of the power dissipated in a resistor. |problem|seniso|2001-01-24 15:47:50|2001-09-20 19:52:31|mmp@msu (Michigan State University)|default
Equivalent resistance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd520.problem|equivalent,circuit,resistors,ohms,resistance|current||Problem:
 Calculation of the equivalent resistance of three resistors.|problem|seniso|2001-01-24 15:49:56|2001-09-20 19:54:22|mmp@msu (Michigan State University)|default
Power dissipated|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd521.problem|dissipated,dissipation,power,circuit,resistors,voltage,resistor|current||Problem:
 Calculation of the power dissipated in a resistor.|problem|seniso|2001-01-24 15:50:21|2001-09-20 19:59:06|mmp@msu (Michigan State University)|default
Voltage|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd522.problem|circuit,series,voltage,ohms,age,volts,battery,resistance,resistor|current||Problem:
 Calculation of the load resistor in a battery.|problem|seniso|2001-01-24 15:50:57|2001-09-20 20:41:13|mmp@msu (Michigan State University)|default
Current|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd523.problem|kirchhoff,currents,potential,loops,circuit,voltage,ohm|current||Problem:
 Calculation of the current in a circuit.|problem|seniso|2001-01-24 15:51:42|2001-09-20 20:03:14|mmp@msu (Michigan State University)|default
Current 2 |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd524.problem|current,circuits,circuit,volt,resitors,resistances,potential,resistance|current||Problem:
 Calculation of the current in a circuit.|problem|seniso|2001-01-24 15:52:16|2001-09-20 20:05:40|mmp@msu (Michigan State University)|default
Cost|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd525.problem|electricity,hint,voltage,cost,power,solution,costs|current||Problem:
 Calculation of how power is related to current and voltage.|problem|seniso|2001-01-24 15:53:12|2001-09-20 20:38:27|mmp@msu (Michigan State University)|default
Galvanometer|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd528.problem|voltmeters,voltmeter,series,resistors,voltage,ohm,ohms,galvanometer,volts,resistance,resistor|current||Galvanometer problem.|problem|seniso|2001-01-24 15:53:46|2001-09-20 20:39:21|mmp@msu (Michigan State University)|default
Shunt resistor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/problems/cd529.problem|ammeters,parallel,resistors,shunt,ohm,rs,ohms,galvanometer,ammeter,galvonometer,potential,resistance,resistor|current||Ammeter problem.|problem|seniso|2001-01-24 15:54:20|2001-10-09 00:39:33|mmp@msu (Michigan State University)|default
Light Bulb|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/problems/cd520a.problem|resistors,voltage,wire,bulb,light,bulbs,battery,resistance|current||Problem:
 Click on a wire to cut that will result in the light bulb C glowing brighter.
 |problem|seniso|2001-08-29 11:37:37|2001-09-20 19:57:05|mmp@msu (Michigan State University)|default
Drift Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/der/drift.mov||current|||mov|seniso|2001-12-09 15:53:33|2001-12-09 15:53:33|mmp@msu (Michigan State University)|default
Drift Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/der/drift.htm|drift,velocity,derivation|current||Drift velocity derivation.|htm|seniso|2001-12-09 15:52:50|2001-12-09 15:52:50|mmp@msu (Michigan State University)|default
Current|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap20/kap20.sequence||current|||sequence|seniso|2001-08-27 09:06:50|2001-08-29 11:41:17|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Current|/res/msu/mmp/kap20/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Current and the Ampere|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR497.htm|charges,charge,coulomb,ampere,electrons,flow,electrical|current||Introduction to current and the ampere.|htm|seniso|2001-08-27 13:11:06|2001-09-18 20:26:26|mmp@msu (Michigan State University)|default
Electron Drift Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR498.htm|electric,thermal,scattering,drifting,drift,heat,impurities,conductor,dissipation,energy,velocities,field,charge,imperfections,flows,battery,vibrations,potential,ions,atoms,temperature,force,resistance,electron,conductors,velocity,electrons,conduction,electrical,terminal|current||Explanation of electron drift velocity as related to the current including
 a derivation of this relationship.|htm|seniso|2001-08-27 13:12:12|2001-09-18 20:33:57|mmp@msu (Michigan State University)|default
Example: Drift Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR498a.htm|electric,drift,charges,electron,velocity,electrons|current||Example of how to calculate drift velocity.|htm|seniso|2001-08-27 22:06:04|2001-09-18 20:56:39|mmp@msu (Michigan State University)|default
Ohm's Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR499.htm|voltage,ohm,ohms,semiconductor,conductor,volt,resistance|current||Introduction to Ohm's law.|htm|seniso|2001-08-27 22:09:06|2001-09-18 21:00:02|mmp@msu (Michigan State University)|default
Example: Resistors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR499a.htm|ohms,resistance,voltage|current||Resistor example using Ohm's law.|htm|seniso|2001-08-27 22:10:42|2001-09-20 19:36:41|mmp@msu (Michigan State University)|default
Color Coding of Resistors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR499b.htm|code,color,band,resistances,coding,resistance,colors,numbers,resistors,resistor,tolerance,ohm|current||Standards for color coding resistors|htm|seniso|2001-08-27 22:11:53|2001-09-18 21:11:58|mmp@msu (Michigan State University)|default
Resistivity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR500.htm|resistivity,charge,conductors,conductivity,resistance|current||Introduction to resistivity and conductivity with a list of some typical values
 for ranges of the resistivity.|htm|seniso|2001-08-27 23:26:56|2001-09-18 21:15:46|mmp@msu (Michigan State University)|default
Resistivity Examples|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR500a.htm|resistivity,capacitance,plate,permittivity,plates,voltage,area,capacitor,resistance|current||Examples calculating the resistivity and the charge on a parallel plate 
 capacitor.|htm|seniso|2001-08-27 23:29:15|2001-09-18 21:22:50|mmp@msu (Michigan State University)|default
Temperature Dependence of Resistivity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR501.htm|temperatures,resistance,resistivity,dependence,temperature|current||Temperature dependence of resistivity.|htm|seniso|2001-08-27 23:30:39|2001-12-04 01:03:25|mmp@msu (Michigan State University)|default
Example: Temperature Dependence|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR501a.htm|resistivity,dependence,temperature,resistance|current||Example calculating resistance at different temperatures.|htm|seniso|2001-08-28 00:26:27|2001-12-30 17:43:21|mmp@msu (Michigan State University)|default
Power Dissipation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR502.htm|dissipation,energy,charge,circuits,circuit,watthour,circuitry,dissipated,ohms,charges,watt,power,potential,resistance,resistor|current||Introduction to power dissipation. Includes a diagram of the simplest possible 
 direct current circuit. |htm|seniso|2001-08-28 00:28:07|2001-09-19 00:26:09|mmp@msu (Michigan State University)|default
Example: Power Dissipation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR502a.htm|voltage,power,dissipation,dissipate,dissipated|current||Example of power dissipation.|htm|seniso|2001-08-28 00:29:39|2002-02-19 15:22:28|mmp@msu (Michigan State University)|default
Resistors in Series|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR503.htm|currents,equivalent,circuits,circuit,series,resistors,ri,rs,resistances,resistance,resistor|current||Calculation of the equivalent resistance of two resistors in series including
 a diagram of the resistors.|htm|seniso|2001-08-28 00:34:38|2001-09-19 00:34:13|mmp@msu (Michigan State University)|default
Example: Resistors in Series|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR503a.htm|resistances,potentiometer,potential,resistance,circuit,series,resistors|current||Example of resistors in series with a diagram labelling the major components in 
 the resistor.
 |htm|seniso|2001-08-28 00:37:06|2001-09-19 00:41:26|mmp@msu (Michigan State University)|default
Resistors in Parallel|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR504.htm|parallel,currents,equivalent,potential,circuits,resistance,circuit,resistors,resistor|current||Calculation of the equivalent resistance of two resistors in parallel including
 a diagram of the resistors.|htm|seniso|2001-08-28 00:38:35|2001-09-19 00:50:51|mmp@msu (Michigan State University)|default
Example: Resistors in Parallel|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR504a.htm|parallel,resistors,voltage,resistances,potential,resistance|current||Examples of resistors in parallel with a diagram labelling the major components in 
 the resistors.|htm|seniso|2001-08-28 00:43:15|2001-09-19 23:46:48|mmp@msu (Michigan State University)|default
Battery|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR505.htm|electrodes,electrolyte,terminals,emf,positive,charges,dissipation,energy,negative,chemical,ion,reactions,charge,electromotive,electrode,battery,potential,ions,permittivity,resistance,circuit,electron,electrons,voltage,electrical,terminal,batteries|current||Explanation/description of the battery and it's function.|htm|seniso|2001-08-28 00:46:42|2001-09-19 01:18:04|mmp@msu (Michigan State University)|default
Parallel Series Combinations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR506.htm||current||Step by step explanation (with a diagram) of how to calculate the equivalent resistance of
 series/parallel combinations
 |htm|seniso|2001-08-28 00:49:48|2001-08-28 00:49:48|mmp@msu (Michigan State University)|default
Applet: Resistors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR506a.htm|parallel,series,resistors,resistances,resistance|current||An applet that allows you to select several configurations of resistors in 
 parallel, series or in combination of both, change their individual 
 resistances, and examine the result for the resistance of the network.|htm|seniso|2001-08-28 00:52:11|2001-08-28 00:52:11|mmp@msu (Michigan State University)|default
Kirchhoff Rules|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR507.htm|transistors,junction,charge,currents,circuits,circuit,series,resistors,voltage,ri,kirchhoff,potentials,kirchhoffs,power,conservation,potential,resistance,loop,batteries|current||The use of Kirchhoff's rules for circuits that cannot be reduced to an 
 equivalent series or parallel resistance.  |htm|seniso|2001-08-28 00:55:02|2001-09-19 23:49:19|mmp@msu (Michigan State University)|default
Example: Kirchoff|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR507a.htm|junction,currents,voltage,flow,terminals,kirchhoffs,rule,flows,battery,potential,resistance,rules,loop,resistor,terminal,batteries|current||Examples applying Kirchhoff's rules with diagrams of the circuits.|htm|seniso|2001-08-28 00:57:47|2001-09-20 00:02:15|mmp@msu (Michigan State University)|default
Example: More Kirchoff|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR508.htm|junction,parallel,loops,series,resistors,kirchhoff,junctions,kirchhoffs,loop,batteries|current||Step by step approach for applying Kirchhoff's to a battery-resistor system.  
 Includes diagrams of the system for each step.|htm|seniso|2001-08-28 00:59:46|2001-09-20 00:13:54|mmp@msu (Michigan State University)|default
Galvanometer|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR510.htm|galvanometer,currents,circuits|current||Diagram and description of a galvanometer.|htm|seniso|2001-08-28 01:04:41|2001-09-20 00:51:31|mmp@msu (Michigan State University)|default
Ammeter|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR511.htm|ammeters,currents,circuit,resistors,voltage,rc,rs,ammeter,resistance,resistor|current||Function and diagram of an ammeter.|htm|seniso|2001-08-28 01:06:38|2001-09-20 00:52:54|mmp@msu (Michigan State University)|default
Example: Ammeter|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR512.htm|voltage,galvanometer,ammeter,resistance|current||Ammeter example and diagram.|htm|seniso|2001-08-28 01:08:35|2001-09-20 19:34:05|mmp@msu (Michigan State University)|default
Voltmeter|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR513.htm|voltmeter,currents,voltages,circuits,circuit,voltage,galvanometer,resistance,resistor|current||Function and diagram of a voltmeter.|htm|seniso|2001-08-28 01:11:49|2001-09-20 00:54:44|mmp@msu (Michigan State University)|default
Example: Voltmeter|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current|/res/msu/mmp/kap20/RR513a.htm|voltmeter,voltage,galvanometer,resistance|current||Example calculating the resistance of a voltmeter.  Includes a voltmeter diagram.|htm|seniso|2001-08-28 01:13:37|2001-10-09 00:39:01|mmp@msu (Michigan State University)|default
True False Practice, Page 530|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Current, True False Questions|/res/msu/mmp/kap20/cd530.htm|series,resistors,voltage,conduction,battery,resistance,resistor|current||True False practice for resistors.|htm|seniso|2001-02-03 13:11:37|2001-09-20 19:37:42|mmp@msu (Michigan State University)|default
Current|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap20/sum20.htm|dissipated,resistivity,ohms,voltmeter,ammeter,law,laws,ampere,discharging,parallel,battery,capacitor,temperature,series,resistors,voltage,resistor|current|||htm|seniso|2001-08-29 11:43:11|2001-08-29 11:43:11|mmp@msu (Michigan State University)|default
RC-Circuits|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Currents|/res/msu/mmp/kap20/RR509.htm|capacitors,charge,circuits,circuit,resistors,rc,rccircuits,kirchhoffs,capacitor,resistor|current||Introduction to RC-Circuits including a diagram of the RC circuit.|htm|seniso|2001-08-28 01:02:56|2001-09-20 00:50:34|mmp@msu (Michigan State University)|default
Currents|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Current|/res/msu/mmp/kap20/cd496.htm|currents|current||Currents title page.|htm|seniso|2001-08-28 01:14:25|2001-09-20 19:40:14|mmp@msu (Michigan State University)|default
Current|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap20/calckap20.sequence||current|||sequence|seniso|2001-08-27 09:06:50|2001-11-28 18:10:21|mmp@msu (Michigan State University)|default
Magnitude of Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd543.problem|angle,force,electrons,magnitude,magnetic,lorentz,electron,velocity|current||Problem:
 Calculation of the magnitude of the force on an electron.|problem|seniso|2001-02-02 17:14:26|2001-09-27 22:09:37|mmp@msu (Michigan State University)|default
Magnitude of Force 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd544.problem|field,charge,force,magnitude,lorenz,lorentz,electron,velocity|current||Problem:
 Calculation of the magnitude of the force on an electron.|problem|seniso|2001-02-02 17:15:22|2001-09-27 22:11:42|mmp@msu (Michigan State University)|default
Magnitude of Force 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd545.problem|force,magnitude|current||Problem:
 Calculation of the magnitude of the force on a wire directed
 some angle, theta, with respect to a magnetic field.|problem|seniso|2001-02-02 17:15:51|2001-09-27 22:13:55|mmp@msu (Michigan State University)|default
Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd546.problem|trajectory,field,ions,force,mass,centrifugal,lorentz,electron|current||Problem:
 Calculation of the mass of ions traveling at right angles to a magnetic field.|problem|seniso|2001-02-02 17:16:20|2001-09-27 22:16:32|mmp@msu (Michigan State University)|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd547.problem|field,magnetic|current||Problem:
 Calculation of the distance that the magnetic field of wire would equal that of 
 Earth.|problem|seniso|2001-02-02 17:16:57|2001-09-27 22:19:28|mmp@msu (Michigan State University)|default
Magnitude of Force 4|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd548.problem|currents,force|current||Problem:
 Calculation of the magnitude of the force between two wires.|problem|seniso|2001-02-02 17:17:33|2001-09-27 22:21:22|mmp@msu (Michigan State University)|default
Magnetic field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd549.problem|toroids,field,toroid,solenoids,magnetic,solenoid,toroidal|current||Problem:
 Calculation of the size of a magnetic field that can be made at the
 average toroidal radius?|problem|seniso|2001-02-02 17:18:05|2001-09-27 22:25:25|mmp@msu (Michigan State University)|default
Magnetic moment|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd551.problem|torques,ma,moment,magnetic,coil|current||Problem:
 Calculation of the magnetic moment in a rectangular coil.|problem|seniso|2001-02-02 17:18:34|2002-02-21 15:03:20|mmp@msu (Michigan State University)|default
Torque|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd552.problem|torques,field,moment,torque,moments|current||Problem:
 Calculation of the torque on a rectangular coil.|problem|seniso|2001-02-02 17:19:05|2001-09-27 22:32:37|mmp@msu (Michigan State University)|default
Magnetic field 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd553.problem|field,magnitudes,work,wire,flow,vectors,magnetic|current||Problem:
 Calculation of where the magnetic field is zero between two wires.|problem|seniso|2001-02-02 17:19:30|2001-09-27 22:34:19|mmp@msu (Michigan State University)|default
Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd554.problem|superconducting,particle,cyclotron,rotation,frequency|current||Problem:
 Calculation of the frequency of rotation of an alpha particle in a magnetic 
 field.|problem|seniso|2001-02-02 17:20:54|2001-10-09 01:12:09|mmp@msu (Michigan State University)|default
Click on the Point|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/problems/cd549a.problem|field,currents,magnitude|current||Problem:
 Click on the region where the magnitude field is everywhere into the page.|problem|seniso|2001-08-31 15:25:09|2001-10-03 10:02:10|mmp@msu (Michigan State University)|default
Magnetism| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap21/kap21.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/demo/helm.htm|circular,orbit,video,particle,beam,electron|current|||htm|seniso|2001-08-31 15:31:29|2001-08-31 15:31:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/demo/helmsm.htm|orbit,video,magnetic,particle,beam,electron|current|||htm|seniso|2001-08-31 15:42:04|2001-08-31 15:42:04|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/demo/magnetsm.htm|magnet,field,compass,video,magnetic|current|||htm|seniso|2001-08-31 15:43:29|2001-08-31 15:43:29|mmp@msu (Michigan State University)|default
Compass Needle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/demo/magnet.htm|magnet,needle,compass,deflect,aligned,needles,magnets,magnetic|current|||htm|seniso|2001-08-31 15:31:07|2001-12-09 15:54:54|mmp@msu (Michigan State University)|default
Force/Length Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/picts/force_length.gif||current|||gif|seniso|2001-10-09 21:55:41|2001-10-09 21:55:41|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Magnetism|/res/msu/mmp/kap21/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction to Magnetism|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd532.htm|magnet,field,charge,fields,electromagnets,poles,monopoles,north,electric,pole,attract,charges,repulsive,magnets,magnetic,attractive|current||Introduction to magnetism with a demonstration on the compass needle.|htm|seniso|2001-08-29 16:58:04|2001-10-09 00:40:46|mmp@msu (Michigan State University)|default
Magnetic Field|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd533.htm|field,charge,fields,vectors,vector,charges,magnetic,lorentz|current||Introduction to the magnetic field -- magnetic field as a vector, the lorentz 
 force, and definition of the cross product. |htm|seniso|2001-08-29 17:01:58|2001-10-09 00:41:03|mmp@msu (Michigan State University)|default
Cross Product|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd533a.htm|angle,product,field,force,direction,vectors,vector,magnetic,perpendicular,cross,lorentz|current||Definition and uses of cross product -- the direction, magnitude and how it
 applies to the lorentz force |htm|seniso|2001-08-29 17:06:12|2001-08-29 17:06:12|mmp@msu (Michigan State University)|default
Example: Force on Moving Charges|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd533b.htm|charge,direction,charges,pointing,force,vectors|current||Examples showing calculations of the magnitude and direction of force|htm|seniso|2001-08-29 17:17:40|2001-08-29 17:17:40|mmp@msu (Michigan State University)|default
Applet: Lorentz Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd533capp.htm|field,charge,charged,magnetic,lorentz|current||Lorentz Force applet that allows you to change the parameters and observe the 
 deflection of a beam of charged particles in a magnetic field.
 |htm|seniso|2001-08-29 17:21:58|2001-10-09 00:41:17|mmp@msu (Michigan State University)|default
Magnetic Field of the Earth|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd534.htm|magnet,field,poles,lines,pole,magnetic|current||The earth's magnetic field lines, axis of rotation, and magnetic north and south 
 poles |htm|seniso|2001-08-29 17:31:05|2001-08-29 17:31:05|mmp@msu (Michigan State University)|default
Force on a Current|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd535.htm|field,currents,force,drift,vector,charges,magnetic,lorentz,velocity|current||Explanation of force on a current (includes  diagram illustrating the magnetic
 force on a wire)|htm|seniso|2001-08-30 15:42:44|2001-08-30 15:42:44|mmp@msu (Michigan State University)|default
Example: Force on a Current|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd535a.htm|forces,force,directions,magnitude,direction|current||Examples of force on a current with calculations involving magnitude and 
 direction of the force |htm|seniso|2001-08-30 23:05:11|2001-10-09 00:41:36|mmp@msu (Michigan State University)|default
Hall Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd536.htm|forces,field,charge,hall,force,electrons,voltage,electric,charges,magnetic,potential,lorentz,electron|current||Introduction and diagram of the Hall effect -- explains how the Hall voltage 
 can be used to measure the magnetic field strength. |htm|seniso|2001-08-30 23:20:59|2001-10-09 00:42:03|mmp@msu (Michigan State University)|default
Trajectory|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd537.htm|trajectory,motion,charge,force,charges,magnetic,perpendicular,particle,centripetal,cyclotron,lorentz,velocity,frequency|current||Explanation of trajectory of charges in a constant B-field.|htm|seniso|2001-09-24 14:20:56|2001-10-09 00:42:56|mmp@msu (Michigan State University)|default
Example: Trajectory|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd537a.htm|trajectory,field,magnetic,cyclotron,rotation,frequency|current||Example calculating the trajectory of an electron in a magnetic field.|htm|seniso|2001-09-24 14:21:22|2001-10-09 00:47:57|mmp@msu (Michigan State University)|default
Ampere Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd538.htm|amperes,field,charge,fields,permittivity,gauss,electrostatics,charges,magnetic,permeability|current||Introduction to Amperes Law.|htm|seniso|2001-09-24 14:21:37|2001-10-09 00:48:46|mmp@msu (Michigan State University)|default
Magnetic Field around a Wire|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd539.htm|amperes,field,cylindrical,circular,symmetry,magnetic,symmetric|current||Problem calculating the magnetic field of a very long wire that carries a
 current.  Includes illustrations of the magnetic field and the use of the right
 hand rule.|htm|seniso|2001-09-24 14:22:03|2001-10-09 00:50:00|mmp@msu (Michigan State University)|default
Example: Wire|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd539a.htm|current,field,fields,magnetic|current||Example calculating the current in a wire. includes an illustration of the B-Field/|htm|seniso|2001-09-24 14:22:34|2001-10-09 00:55:31|mmp@msu (Michigan State University)|default
Magnetic Field of a Loop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd540.htm|helmholtz,coils,magnet,righthand,circular,magnetic,permeability,coil,loop,solenoid|current||Introduction and illustration of magnetic field of a loop.|htm|seniso|2001-09-24 14:22:50|2001-10-09 00:57:02|mmp@msu (Michigan State University)|default
Example: Loop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd540a.htm|field,magnetic,coil,loop|current||Calculation of the magnetic field at the center of a coil.|htm|seniso|2001-09-24 14:23:30|2001-10-09 00:59:43|mmp@msu (Michigan State University)|default
Toroids and Solenoids|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd541.htm|coils,toroids,amperes,field,fields,toroid,solenoids,magnetic,coil,solenoid|current||Introduction to Toroids and Solenoids.|htm|seniso|2001-09-24 14:23:50|2001-10-09 01:00:20|mmp@msu (Michigan State University)|default
Example: Toroids and Solenoids|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd541a.htm|toroids,field,fields,toroid,hospitals,solenoids,magnetic,patient,solenoid|current||Examples using the concepts of Toroids and Solenoids.|htm|seniso|2001-09-24 14:24:27|2001-10-09 01:03:28|mmp@msu (Michigan State University)|default
Two Wires|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd542.htm|forces,field,magnetic,ampere,currents,newtons,hand,force|current||Force and magnetic field between two wires.|htm|seniso|2001-09-24 14:24:58|2001-10-09 21:59:38|mmp@msu (Michigan State University)|default
Example: Two Wires|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd5421.htm|repulsive,forces,length,wires,opposite,currents,force,directions,flow|current||Example of two wries carrying currents in opposite directions.|htm|seniso|2001-09-24 14:25:30|2001-10-09 22:38:26|mmp@msu (Michigan State University)|default
Torque and Magnetic Moment|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd542a.htm|coils,field,net,motor,torque,force,electrons,electrical,galvanometer,magnets,magnetic,coil,lorentz,loop|current||Introductio to the magnetic moment and the Lorentz force.|htm|seniso|2001-09-24 14:25:55|2001-10-09 01:07:06|mmp@msu (Michigan State University)|default
Example: Torque|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd542b.htm|magnet,field,torque,magnitude,magnetic,coil|current||Examples calculating the maximum torque on coil in a B-Field.|htm|seniso|2001-09-24 14:26:44|2001-10-09 01:09:31|mmp@msu (Michigan State University)|default
Magnetic Materials|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism|/res/msu/mmp/kap21/cd542c.htm|magnet,dioxide,charge,orbital,moment,antiferromagnetism,permittivity,atoms,temperature,electrons,ferro,atom,ferromagnetism,orbit,magnetic,superconductors,atomic,electromagnet,magnetizing,coil,moments,magnetism|current||Explanation of ferromagnetism and antiferromagnetism.|htm|seniso|2001-09-24 14:27:05|2001-10-09 01:10:23|mmp@msu (Michigan State University)|default
True False Practice, Page 555|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Magnetism, True False Questions|/res/msu/mmp/kap21/cd555.htm|force,magnitude,charged,magnetic,perpendicular,particle,coil,velocity|current||True False practice for the chapter on Magnetic fields.|htm|seniso|2001-02-03 13:12:46|2001-10-09 01:11:28|mmp@msu (Michigan State University)|default
Magnetism|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap21/sum21.htm|amperes,field,charge,toroid,torque,force,repulsive,magnetic,cyclotron,coil,frequency,solenoid,magnetism|current|||htm|seniso|2001-09-24 14:28:04|2001-09-24 14:28:04|mmp@msu (Michigan State University)|default
Magnetism Title Page|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Magnetism|/res/msu/mmp/kap21/cd531.htm|magnetism|current||Magnetism title page|htm|seniso|2001-08-29 16:55:11|2001-10-09 00:39:58|mmp@msu (Michigan State University)|default
Magnetism|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap21/calckap21.sequence||current|||sequence|seniso|2001-11-28 18:10:41|2001-11-28 18:10:41|mmp@msu (Michigan State University)|default
Magnetic flux|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd567.problem|measuring,magnetic,surface,flux|current||Problem:
 Calculation of the magnetic flux through a table top.
                                |problem|seniso|2001-02-02 17:21:52|2001-10-10 12:29:18|mmp@msu (Michigan State University)|default
Magnitude|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd568.problem|lenzs,angle,field,faradays,potental,counterclockwise,clockwise,magnitude,vector,magnetic,potential,coil|current||Problem:
 Calculation of the magnitude and direction of the induced current in a coil.|problem|seniso|2001-02-02 17:22:22|2002-02-22 14:15:56|mmp@msu (Michigan State University)|default
Area increase|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd568a.problem|field,faradays,current,section,emf,induced,magnitude,magnetic,coil,units|current||Problem:
 Calculation of the induced current in a coil.|problem|seniso|2001-02-02 17:23:03|2002-02-22 14:17:26|mmp@msu (Michigan State University)|default
EMF|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd569.problem|induction,field,emf,induced,magnetic,solenoid|current||Problem:
 Calculation of the magnitude of the average induced EMF in a solenoid.|problem|seniso|2001-02-02 17:23:35|2001-10-10 12:33:25|mmp@msu (Michigan State University)|default
Potential difference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd570.problem|difference,induction,angle,wingspan,wing,voltage,induced,magnetic,rectangle,potential|current||Problem:
 Calculation of the magnitude of the potential difference between the ends of 
 the wing in airplane.|problem|seniso|2001-02-02 17:25:01|2001-10-10 12:35:55|mmp@msu (Michigan State University)|default
Mutual inductance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd573.problem|field,mutual,inductance,faradays,voltage,induced,magnetic,solenoid|current||Problem:
 Calculation of the mutual inductance of a solenoid and a coil.|problem|seniso|2001-02-02 17:51:35|2002-03-17 10:59:18|mmp@msu (Michigan State University)|default
Current|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd574.problem|large,energy,inductor,inductance|current||Problem:
 Calculation of current flow through an inductor.|problem|seniso|2001-02-02 17:26:04|2001-10-10 12:52:33|mmp@msu (Michigan State University)|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd575.problem|energy,superconducting,inductor,inductance,solenoid|current||Problem:
 Calculation of the energy stored in a long superconducting MRI solenoid.|problem|seniso|2001-02-02 17:26:45|2001-10-10 12:39:39|mmp@msu (Michigan State University)|default
Voltage|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/problems/cd576.problem|lenzs,field,faradays,voltage,induced,magnetic,potential|current||Problem:
 Calculation of the induced voltage in a metal ring.|problem|seniso|2001-02-02 17:27:10|2001-10-10 12:48:41|mmp@msu (Michigan State University)|default
Induction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap22/kap22.sequence||current|||sequence|seniso|2001-08-24 14:56:13|2001-08-24 14:56:13|mmp@msu (Michigan State University)|default
Induction Video|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/demo/galsm.htm|video,faraday,deflection|current|||htm|seniso|2001-08-24 17:01:13|2001-08-24 17:01:13|mmp@msu (Michigan State University)|default
Induction Video|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/demo/rotsm.htm|galvanometer,faraday|current|||htm|seniso|2001-08-24 17:03:28|2001-08-24 17:03:28|mmp@msu (Michigan State University)|default
Induction Video|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/demo/loop.htm|galvanometer,faraday|current|||htm|seniso|2001-08-24 17:01:47|2001-08-24 17:01:47|mmp@msu (Michigan State University)|default
Induction Video|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/demo/loopsm.htm|video,galvanometer,faraday|current|||htm|seniso|2001-08-24 17:02:16|2001-08-24 17:02:16|mmmp@msu (Michigan State University)|default
Induction Video|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/demo/rot.htm|galvanometer,faraday|current|||htm|seniso|2001-08-24 17:02:56|2001-08-24 17:02:56|mmp@msu (Michigan State University)|default
Induction Video|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/demo/gal.htm|indicated,video,deflection,galvanometer,solenoid|current|||htm|seniso|2001-08-24 17:00:19|2001-08-24 17:00:19|mmp@msu (Michigan State University)|default
Induction Video|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/demo/couplesm.htm|connected,coils,magnet,oscillate,video,coil|current|||htm|seniso|2001-08-24 16:59:38|2001-08-24 16:59:38|mmp@msu (Michigan State University)|default
Note on the Use of Calculus|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electric Field|/res/msu/mmp/kap22/cd557a.htm|differentiation,derivations,primer,formulas,integration,appendix,calculus|current||Notes on the use of calculus in this course.|htm|seniso|2001-08-24 14:59:18|2001-10-09 22:42:14|mmp@msu (Michigan State University)|default
Dimensionality|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/picts/dimension_eqn.gif||current|||gif|seniso|2001-10-09 23:19:39|2001-10-09 23:19:39|mmp@msu (Michigan State University)|default
Energy Equation |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/picts/energy_eqn.gif||current|||gif|seniso|2001-10-10 12:20:47|2001-10-10 12:20:47|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Induction|/res/msu/mmp/kap22/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Observations of Faraday|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd557.htm|magnet,electromotive,faradays,force,wire,electric,emf,induced,magnetic,potential,faraday|current||Faraday's observations of magnetic field and induced emf.|htm|seniso|2001-08-24 14:54:19|2001-10-09 22:41:09|mmp@msu (Michigan State University)|default
Magnetic Flux|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd558.htm|field,integral,integration,permittivity,monopoles,gauss,electric,free,vector,area,magnetic,flux,velocity,magnetism|current||Introduction to magnetic flux -- includes a diagram.|htm|seniso|2001-08-24 14:59:42|2001-10-09 22:44:20|mmp@msu (Michigan State University)|default
Example: Magnetic Flux|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd558a.htm|circular,field,magnetic,flux,coil|current||Example calculating the magnetic flux through a circular coil.  Includes
 an illustration of the example.|htm|seniso|2001-08-24 15:00:20|2001-10-09 22:50:38|mmp@msu (Michigan State University)|default
Faraday Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd559.htm|lenzs,field,electromotive,work,faradays,force,voltage,emf,da,area,potential,coil,velocity|current||Concepts of Faraday's and Lenz's laws.|htm|seniso|2001-08-24 15:00:40|2001-10-09 22:52:54|mmp@msu (Michigan State University)|default
Example: Faraday Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd559a.htm|coupled,oscillators,faradays,voltage,applet,ts,magnets,lenz,law,magnetic,flux,coil,oscillations,loop|current||Examples using the concepts of Faraday's and Lenz's law.  Includes a demonstration
 of Faradays Law in which two magnets perform coupled oscillations.|htm|seniso|2001-08-24 15:01:32|2001-10-09 22:55:47|mmp@msu (Michigan State University)|default
Motional Induced Voltage|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd560.htm|field,faradays,motional,voltage,wire,induced,area,magnetic,coil,velocity|current||Introduction to motional induced voltage including a demonstration and illustration.|htm|seniso|2001-08-24 15:02:30|2001-10-09 23:04:02|mmp@msu (Michigan State University)|default
Application: Induction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd561.htm|induction,output,magnetic,fields,information,storage,induce,electromagnet,magnetization,ferromagnetic,translated,magnetized,voltage,magnetizes|current||Physics principles behind information storage technology.
 |htm|seniso|2001-08-24 15:03:29|2001-10-09 23:07:48|mmp@msu (Michigan State University)|default
Generators|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd562.htm|field,work,faradays,powers,rotational,voltage,emf,induced,magnets,rotated,magnetic,power,rotating,velocity,rotate|current||Introduction to rotational emf. Includes a demo of the generation of a current
 by rotating a loop inside a permanent magnet. |htm|seniso|2001-08-24 15:04:02|2001-10-09 23:09:26|mmp@msu (Michigan State University)|default
Example: Generators|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd562a.htm|angular,rotational,voltage,emf,rotates,magnetic,rotating,coil,velocity,frequency|current||Example calculating the voltage generated by a rotating rectangular coil in a 
 magnetic field.|htm|seniso|2001-08-24 15:04:47|2001-11-15 07:26:17|mmp@msu (Michigan State University)|default
Inductance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd563.htm|induced,field,magnetic,inductance,faradays,flux,coil,henry|current||Introduction and illustration of inductance.|htm|seniso|2001-08-24 15:05:10|2001-10-09 23:20:57|mmp@msu (Michigan State University)|default
Example: Inductance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd563a.htm|field,mutual,inductance,flow,magnetic,flux,solenoid|current||Example calculating the mutual inductance of a single turn coil is located 
 inside a solenoid.  Includes an illustration of the example.|htm|seniso|2001-08-24 15:05:36|2001-10-09 23:25:40|mmp@msu (Michigan State University)|default
Self-Inductance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd564.htm|lenzs,coils,amperes,inductance,faradays,induce,circuit,voltage,selfinductance,emf,induced,solenoids,magnetic,flux,coil|current||Introduction to self inductance.|htm|seniso|2001-08-24 15:05:57|2001-10-09 23:26:58|mmp@msu (Michigan State University)|default
Example: Self-Inductance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd564a.htm|selfinductance,inductance,flux,solenoid|current||Example calculating the self inductance of a solenoid.|htm|seniso|2001-08-24 15:06:44|2001-10-09 23:28:49|mmp@msu (Michigan State University)|default
Self-Inductance of Coils|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd565.htm|coils,ls,toroids,inductance,toroid,circuit,selfinductance,solenoids,coil,resistance,solenoid|current||Self-Inductance of toroids and solenoids.|htm|seniso|2001-08-24 15:07:04|2001-10-09 23:30:06|mmp@msu (Michigan State University)|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd566.htm|energy,field,inductance,circuit,voltage,kirchhoffs,magnetic,inductor,potential,resistance|current||Derivation of the energy stored in the magnetic field of an inductor.|htm|seniso|2001-08-24 15:07:41|2001-10-10 12:23:27|mmp@msu (Michigan State University)|default
Example: Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/kap22/cd566a.htm|energy,inductance,stored,solenoid|current||Example calculating the energy stored in a solenoid.|htm|seniso|2001-08-24 15:08:09|2001-10-10 12:26:28|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction, True False Questions|/res/msu/mmp/kap22/cd579.htm|induction,coils,energy,field,inductance,induce,electricity,emf,induced,magnetic,rotation,coil,loop,solenoid|current||True False practice for magnetic fields.|htm|seniso|2001-02-03 13:13:34|2001-10-10 12:27:13|mmp@msu (Michigan State University)|default
Induction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap22/sum22.htm|induction,energy,inductance,voltage,magnetic,coil,velocity|current||Induction Summary Page.|htm|seniso|2001-08-24 15:08:53|2001-11-25 01:38:39|mmp@msu (Michigan State University)|default
Motional Induced Voltage -- Non Calculus Version|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/cd560nc.htm|faradays,voltage,induced,da,area,magnetic|current||Introduction to motional induced voltage including a demonstration and 
 illustration.|htm|seniso|2001-08-24 15:03:02|2001-10-09 23:06:14|mmp@msu (Michigan State University)|default
Chapter Frontpage Induction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Induction|/res/msu/mmp/kap22/cd556.htm|induction|current||Induction title page.|htm|seniso|2001-08-24 14:53:43|2001-10-09 22:39:25|mmp@msu (Michigan State University)|default
Induction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap22/calckap22.sequence||current|||sequence|seniso|2001-08-24 14:56:13|2001-11-28 18:11:03|mmp@msu (Michigan State University)|default
Voltage|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/problems/cd597.problem|voltage|current|||problem|seniso|2001-02-20 17:48:26|2001-08-24 17:33:24|mmp@msu (Michigan State University)|default
Current|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/problems/cd599.problem|capacitors,voltage,ohms,oscillator,impedance,frequency|current|||problem|seniso|2001-02-20 17:48:46|2001-08-24 17:33:51|mmp@msu (Michigan State University)|default
Current 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/problems/cd600.problem|capacitance,inductance,circuit,voltage,capacitive,ohms,impedance,resistance,frequency|current|||problem|seniso|2001-02-20 17:49:03|2001-08-24 17:34:19|mmp@msu (Michigan State University)|default
Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/problems/cd601.problem|microfarad,capacitive,inductive,inductor,capacitor,frequency|current|||problem|seniso|2001-02-20 17:49:33|2001-08-24 17:34:51|mmp@msu (Michigan State University)|default
Frequency 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/problems/cd602.problem|microfarad,impedance,hz|current|||problem|seniso|2001-02-20 17:49:53|2001-08-24 17:35:15|mmp@msu (Michigan State University)|default
Resonance Frequency |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/problems/cd603.problem|resonance,circuit,ohms,hz,frequency|current|||problem|seniso|2001-02-20 17:50:14|2001-08-24 17:35:36|mmp@msu (Michigan State University)|default
RMS Voltage|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/problems/cd604.problem|resonance,circuit,voltage,ohms,impedance,inductor,volts,frequency|current|||problem|seniso|2001-02-20 17:50:37|2001-08-24 17:35:53|mmp@msu (Michigan State University)|default
Power|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/problems/cd605.problem|resonance,watts,circuit,dissipated,ohms,volts,frequency,resistor|current|||problem|seniso|2001-02-20 17:51:00|2001-08-24 17:36:16|mmp@msu (Michigan State University)|default
Current 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/problems/cd606.problem|capacitors,microfarad,resonance,inductive,resistors,capacitive,ohms,capacitances,volt,volts,inductances,frequency,resistor,inductors|current|||problem|seniso|2001-02-20 17:51:24|2001-08-24 17:36:44|mmp@msu (Michigan State University)|default
Current 4 |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/problems/cd607.problem|microfarad,circuit,ohms,volts,frequency,resistor|current|||problem|seniso|2001-02-20 17:51:52|2001-08-24 17:37:20|mmp@msu (Michigan State University)|default
Turns|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/problems/cd608.problem|ac,transformers,transformer,volts|current|||problem|seniso|2001-02-20 17:52:12|2001-09-04 10:26:29|mmp@msu (Michigan State University)|default
Time|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/problems/cd577.problem|ohms,battery|current|||problem|seniso|2001-02-20 17:47:28|2001-08-24 17:32:29|mmp@msu (Michigan State University)|default
Current 5|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/problems/cd578.problem|decays,circuit,voltage,ohms,tt,battery,exponentially|current|||problem|seniso|2001-02-20 17:48:00|2001-08-31 15:16:23|mmp@msu (Michigan State University)|default
Charging Capacitor |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/problems/cd526.problem|charge,charging,circuit,ohms,capacitor|current|||problem|seniso|2001-02-20 17:45:45|2001-08-24 17:28:06|mmp@msu (Michigan State University)|default
Discharging Capacitor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/problems/cd527.problem|charge,circuits,circuit,rc,capacitor|current|||problem|seniso|2001-02-20 17:46:58|2001-08-31 15:16:15|mmp@msu (Michigan State University)|default
Time-Varying Currents|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap23/kap23.sequence||current|||sequence|seniso|2001-08-24 17:19:44|2001-08-24 17:19:44|mmp@msu (Michigan State University)|default
Phasors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/demo/phasor.htm|capacitance,voltages,angle,phasors|current|||htm|seniso|2001-12-09 15:55:42|2001-12-09 15:55:42|mmp@msu (Michigan State University)|default
Current Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/current_eqn.gif||current|||gif|seniso|2001-11-25 02:03:37|2001-11-25 02:03:37|mmp@msu (Michigan State University)|default
Angular Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/angfreq_eqn.gif||current|||gif|seniso|2001-11-25 02:27:46|2001-11-25 02:27:46|mmp@msu (Michigan State University)|default
Current Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/current_eqn2.gif||current|||gif|seniso|2001-11-25 17:10:55|2001-11-25 17:10:55|mmp@msu (Michigan State University)|default
Angular Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/angfreq_eqn2.gif||current||Equation  for the angular frequency of an LC circuit.|gif|seniso|2001-11-25 17:21:06|2001-11-25 17:21:06|mmp@msu (Michigan State University)|default
Time Decay Constant|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/tau_eqn.gif||current||Time decay constant equation for an RL circuit. |gif|seniso|2001-11-25 17:41:45|2001-11-25 17:41:45|mmp@msu (Michigan State University)|default
Root mean square cuurent|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/rms_eqn.gif||current|||gif|seniso|2001-11-25 17:54:57|2001-11-25 17:54:57|mmp@msu (Michigan State University)|default
Voltage Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/voltage_eqn.gif||current|||gif|seniso|2001-11-25 18:38:41|2001-11-25 18:38:41|mmp@msu (Michigan State University)|default
Impedence Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/impedence_eqn.gif||current|||gif|seniso|2001-11-25 18:46:48|2001-11-25 18:46:48|mmp@msu (Michigan State University)|default
Impedence Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/impedence_eqn2.gif||current|||gif|seniso|2001-11-25 18:56:16|2001-11-25 18:56:16|mmp@msu (Michigan State University)|default
Charge Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/picts/charge_eqn.gif||current|||gif|seniso|2001-11-25 19:59:44|2001-11-25 19:59:44|mmp@msu (Michigan State University)|default
Applet: RC Circuit with Battery|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/RC/app.htm|capacitance,applet,capacitor|current|||htm|seniso|2001-08-24 17:38:55|2001-08-24 17:38:55|mmp@msu (Michigan State University)|default
Applet RLC Resonant Circuit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/RCL/app.htm|capacitance,inductance,resonance,circuit,voltage,applet,resistance,frequency|current|||htm|seniso|2001-08-24 17:39:18|2001-08-24 17:39:18|mmp@msu (Michigan State University)|default
Applet: Oscilloscope|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/Oscilloscope/app.htm|oscilloscope,sinusoidally,applet,sinusoidal,physical,oscilloscopes|current|||htm|seniso|2001-08-24 17:38:29|2001-08-24 17:38:29|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Time-Varying Currents|/res/msu/mmp/kap23/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd581.htm|capacitors,currents,ac,voltages,circuit,voltage,sinusoidal,inductances,alternating,inductors|current||Introduction to the chapter on time-varying currents.|htm|seniso|2001-08-24 17:05:15|2001-11-25 01:39:50|mmp@msu (Michigan State University)|default
RC Circuit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd582.htm|charge,circuit,voltage,rc,discharge,kirchhoffs,resistor|current||Introduction to RC circuits for introductory physics.|htm|seniso|2001-08-24 17:05:44|2001-11-25 01:54:26|mmp@msu (Michigan State University)|default
RC Circuit Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd582a.htm|voltage,rc,capacitor,resistor|current||Example calculating the charge on a capacitor.|htm|seniso|2001-08-24 17:06:12|2001-11-25 02:07:48|mmp@msu (Michigan State University)|default
RL Circuit with Battery|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd587.htm|kirchhoffs,inductance,battery,potential,resistance,circuit,voltage,resistor|current||Introduction to an RL circuit w/ a battery.|htm|seniso|2001-08-24 17:08:23|2001-11-25 17:37:52|mmp@msu (Michigan State University)|default
RL Circuit with Battery Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd587a.htm|inductor,battery,resistance,circuit,decay|current||Example calculating the current in an RL circuit.|htm|seniso|2001-08-24 17:09:02|2001-11-25 17:44:35|mmp@msu (Michigan State University)|default
LC Circuit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd584.htm|lc,charge,inductance,circuit,voltage,oscillator,kirchhoffs,inductor,frequency,discharges|current||Introduction to, and a diagram of, an LC circuit.|htm|seniso|2001-08-24 17:06:28|2001-11-25 02:16:24|mmp@msu (Michigan State University)|default
LC Circuit with Battery Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd584a.htm|lc,oscillation,circuit,inductor,capacitor,frequency,discharges|current||Example calculating the frequency and angular frequency in an LC circuit.|htm|seniso|2001-08-24 17:06:59|2001-11-25 02:29:36|mmp@msu (Michigan State University)|default
LC Circuit Time Evolution|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd585.htm|oscillating,lc,oscillation,charge,capacitor,circuit,voltage|current||Equation for the current on an LC circuit.|htm|seniso|2001-08-24 17:07:23|2001-11-25 17:12:51|mmp@msu (Michigan State University)|default
LC Time Evolution Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd585a.htm|lc,oscillation,inductor,capacitor,circuit,discharges|current||Example calculating the peak current of oscillation in an LC circuit.|htm|seniso|2001-08-24 17:07:45|2001-11-25 17:22:59|mmp@msu (Michigan State University)|default
DC RCL Circuit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd586.htm|amplitude,oscillation,inductance,harmonic,circuits,resistance,circuit,rc|current||Introduction to RLC circuits for introductory physics.  Includes a diagram of
 an RLC circuit.|htm|seniso|2001-08-24 17:07:59|2001-11-25 17:23:46|mmp@msu (Michigan State University)|default
Alternating Currents and Voltages|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd588.htm|ohms,kirchhoffs,factors,currents,potential,sinusoidally,ac,voltages,circuit,voltage,alternating,resistor|current||Introduction to alternating currents and voltages.|htm|seniso|2001-08-24 17:09:21|2001-11-25 19:42:05|mmp@msu (Michigan State University)|default
AC Power Dissipation in a Resistor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd589.htm|alternate,dissipation,sinusoidal,power,rootmeansquare,ac,voltage,resistor|current||Introduction to power dissipation in a resistor.|htm|seniso|2001-08-24 17:10:54|2001-11-25 19:44:42|mmp@msu (Michigan State University)|default
AC Power Dissipation Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd589a.htm|dissipation,power,ac,voltage,resistor|current||Example of the power dissipation in a resistor.|htm|seniso|2001-08-24 17:11:18|2001-11-25 17:57:37|mmp@msu (Michigan State University)|default
Inductance in an AC Circuit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd590.htm|dissipated,kirchhoffs,inductor,power,inductance,ac,resistance,circuit,inductive,voltage,frequency|current||Definition of inductance in an AC circuit.|htm|seniso|2001-08-24 17:11:40|2001-11-25 19:45:40|mmp@msu (Michigan State University)|default
Inductance in AC Circuit Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd590a.htm|inductor,inductance,ac,circuit,inductive,voltage|current||Example calculating the current through an AC circuit.|htm|seniso|2001-08-24 17:12:08|2001-11-25 19:46:45|mmp@msu (Michigan State University)|default
Capacitor in an AC Circuit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd591.htm|emf,kirchhoffs,capacitor,ac,resistance,circuit,voltage|current||Equations and illustrations for a capacitor in an AC circuit.|htm|seniso|2001-08-24 17:12:28|2001-11-25 20:04:46|mmp@msu (Michigan State University)|default
Capacitor in AC Circuit Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd591a.htm|ac,circuit,voltage,capacitative,inductor,capacitor|current||Example calculating the current through an AC circuit.|htm|seniso|2001-08-24 17:12:55|2002-03-22 08:45:25|mmp@msu (Michigan State University)|default
RLC AC Circuit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd592.htm|resonance,circuit,voltage,resistor,inductance,degrees,ac,voltages,inductive,capacitor,oscillates|current|||htm|seniso|2001-08-24 17:13:19|2001-08-24 17:13:19|mmp@msu (Michigan State University)|default
Impedance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd594.htm|impedance,oscillation,capacitance,inductance,currents,resonance,ac,resistance,circuit,inductive,frequency,resistor|current||Explanation and equations of impedence for circuits.|htm|seniso|2001-08-24 17:14:51|2001-11-25 20:08:22|mmp@msu (Michigan State University)|default
Resonant Circuits|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd594a.htm|impedance,resonant,ac,circuits,circuit,phase,voltage,frequency|current||Introduction to resonant circuits.|htm|seniso|2001-08-24 17:15:18|2001-11-25 20:09:24|mmp@msu (Michigan State University)|default
Examples of Resonant Circuits|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd594b.htm|frequencies,resonant,capacitance,inductance,reactance,resonance,circuits,circuit,phase,voltage,capacitive,dissipated,impedance,inductor,power,capacitor,resistance,frequency,resistor|current||Examples using the concepts of resonant circuits.|htm|seniso|2001-08-24 17:15:38|2002-03-22 08:43:40|mmp@msu (Michigan State University)|default
Filters|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd595.htm|threeway,frequencies,bass,filter,signal,twoway,filters,capacitor,signals,circuit,tweeter,speaker,loudspeakers,frequency|current||Explanantion and applications of a filter system.|htm|seniso|2001-08-24 17:16:16|2001-11-25 19:23:00|mmp@msu (Michigan State University)|default
Transformers|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd596.htm|emf,transmission,coils,transformers,energy,transformer,power,faradays,volts,electricity,flux,ac,coil,voltage|current||Use of transformers to change the voltage of an AC source.|htm|seniso|2001-08-24 17:17:07|2001-11-25 20:12:49|mmp@msu (Michigan State University)|default
Example: Transformers|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd596b.htm|transformers,transformer,coil,voltage|current||Example using the concepts of transformers.|htm|seniso|2001-08-24 17:18:30|2001-11-25 22:11:20|mmp@msu (Michigan State University)|default
An Analog Computer|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd596a.htm|mechanics,computer,analog,capacitor,circuit,velocity,voltage,digital,computers|current||Use of an RLC circuit as an analog computer.|htm|seniso|2001-08-24 17:17:44|2001-11-25 20:14:07|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents, True False Questions|/res/msu/mmp/kap23/cd609.htm|dissipated,impedance,dc,transformer,inductor,power,device,capacitor,resonance,ac,generator,voltage,frequency,resistor|current||True False Practice for the chapter on time-varying currents.|htm|seniso|2001-02-03 13:14:30|2001-11-25 22:11:58|mmp@msu (Michigan State University)|default
AC Circuits|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap23/sum23.htm|circuits,circuit,voltage,rc,transformer,inductor,frequency|current|||htm|seniso|2001-08-24 17:19:56|2001-08-31 15:15:59|mmp@msu (Michigan State University)|default
Applet: Time-Varying Currents|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/cd588a.htm|amplitude,applet,sinusoidal,phases,phase,variable|current||Explanation of sine waves and phases including an applet of two sine waves with
 different phases.|htm|seniso|2001-08-24 17:09:58|2001-11-25 19:43:03|mmp@msu (Michigan State University)|default
Phasors.|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Time-Varying Currents|/res/msu/mmp/kap23/cd593.htm|phasors,rotations,sinusoidal,voltages,phase,voltage,oscillations|current||Explanation and illustration of phasors.|htm|seniso|2001-08-24 17:13:54|2001-11-25 20:06:48|mmp@msu (Michigan State University)|default
Chapter Frontpage Time-Varying Currents|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Time-Varying Currents|/res/msu/mmp/kap23/cd580.htm|currents,timevarying|current||Chapter Frontpage Time-Varying Currents|htm|seniso|2001-08-24 17:04:24|2001-11-25 01:39:16|mmp@msu (Michigan State University)|default
Time-Varying Currents|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap23/calckap23.sequence||current|||sequence|seniso|2001-08-24 17:19:44|2001-11-28 18:11:30|mmp@msu (Michigan State University)|default
Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/problems/cd619.problem|wavelength,waves,hz,frequency|current||Problem:
 Calculation of the frequency of X-rays.|problem|seniso|2001-02-20 18:01:00|2001-10-23 15:19:02|mmp@msu (Michigan State University)|default
Time|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/problems/cd620.problem|distance,laser,speed,radius,velocity|current||Problem:
 Calculation of time required for light to travel.
 |problem|seniso|2001-02-20 18:01:31|2001-10-23 15:20:14|mmp@msu (Michigan State University)|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/problems/cd620a.problem|joules,energy,electromagnetic,reflector,pressure,laser,radiation,light,perpendicularly,intensity|current||Problem:
 Calculation of the force exerted by a laser.|problem|seniso|2001-02-20 18:01:55|2001-10-23 15:22:10|mmp@msu (Michigan State University)|default
Length |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/problems/cd621.problem|length,wavelength,mhz,radio,antenna,antennas,station,fm,light,hz,frequency|current||Problem:
 Calculation of the optimal lenght for an antenna.|problem|seniso|2001-02-20 18:02:10|2001-10-23 15:23:53|mmp@msu (Michigan State University)|default
Percent of Incident Light |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/problems/cd695.problem|orientation,polarization,polarizers,light,polaroids,polarized,beam,polarizer,intensity|current||Problem:
 Calculation of the percent of incident light that makes it through two polaroids.|problem|seniso|2001-02-20 18:02:34|2001-10-23 15:26:17|mmp@msu (Michigan State University)|default
Intensity |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/problems/cd695a.problem|electric,incident,energy,sunlight,field,asteroid,intensity|current||Problem:
 Calculation of the intensity of sunlight incident on a surface.|problem|seniso|2001-02-20 18:02:54|2001-10-23 15:28:06|mmp@msu (Michigan State University)|default
Three polarizers |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/problems/cd695b.problem|polarization,polarizers,light,polarized,polarizer,orientation,percentage,unpolarized,perpendicular|current||Problem:
 Calculation of the percentage of initial light intensity that passes through 
 three polarizers.
 |problem|seniso|2001-02-20 18:03:14|2001-10-23 15:33:23|mmp@msu (Michigan State University)|default
Electromagnetic Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap24/kap24.sequence||current|||sequence|seniso|2001-08-24 17:40:02|2001-08-24 17:40:02|mmp@msu (Michigan State University)|default
Demo: Electromagnetic Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/demo/emwave.htm|propagation,video,wave|current|||htm|seniso|2001-08-24 17:42:19|2001-08-24 17:42:19|mmp@msu (Michigan State University)|default
Demo: Electromagnetic Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/demo/wave.htm|oscillation,field,fields,elctromagnetic,video|current|||htm|seniso|2001-08-24 17:41:32|2001-08-24 17:41:32|mmp@msu (Michigan State University)|default
Magnetic Field Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/picts/bfield_eqn.gif||current||Equation used to calculate the magnetic field in kap24/cd615.|gif|seniso|2001-12-01 21:28:58|2001-12-01 21:28:58|mmp@msu (Michigan State University)|default
Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Electromagnetic Waves|/res/msu/mmp/kap24/picts/force_eqn.gif|force|current||Equation used to calculate the force in kap24/cd615b.|gif|seniso|2001-12-01 22:18:44|2001-12-01 22:18:44|mmp@msu (Michigan State University)|default
Applet: Polarization|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/polarizers/Polarizer.htm|orientation,polarization,polarizers,photometer,applet,polarimeters,polarizer,optical,rays|current|||htm|seniso|2001-09-03 11:47:22|2001-09-03 11:47:22|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Electromagnetic Waves|/res/msu/mmp/kap24/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd611.htm|amperes,charge,maxwells,flux,magnetism,maxwell,electricity,electric,waves,capacitor,displacement|current||Introduction to the chapter on electromagnetic waves.|htm|seniso|2001-08-24 17:42:54|2001-12-01 21:07:51|mmp@msu (Michigan State University)|default
Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Electromagnetic Waves|/res/msu/mmp/kap24/cd612.htm|maxwell,electromagnetic,field,wavelength,speed,refraction,propagation,longitudinal,vector,amplitudes,waves,magnetic,wave,physics,frequency,oscillations|current||Introduction to electromagnetic waves and Maxwell's equations.|htm|seniso|2001-05-24 13:46:17|2002-02-27 08:12:11|mmp@msu (Michigan State University)|default
Wave Propagation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd613.htm|electromagnetic,efield,propagation,wave,oscillating,propagate,dipole,bfield,waves,harmonic|current||Introduction to wave propagation for introductory physics.  Includes two wave
 propagation demonstrations.|htm|seniso|2001-08-24 17:44:12|2001-12-01 21:09:03|mmp@msu (Michigan State University)|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd614.htm|efield,electric,bfield,energy,em,electromagnetic,field,magnetic,density,intensity|current||Explanation of the energy density contained in electric and magnetic fields.|htm|seniso|2001-02-28 09:29:02|2001-12-01 21:23:41|mmp@msu (Michigan State University)|default
Energy Density of Sunlight|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd615.htm|energy,field,efield,electric,earths,sunlight,magnetic,density,sun|current||Example calculating the energy density of sunlight.|htm|seniso|2001-02-28 09:33:31|2001-12-02 04:44:07|mmp@msu (Michigan State University)|default
Radiation Pressure|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd615a.htm|momentum,maxwell,energy,warmth,electromagnetic,reflection,force,skin,pressure,radiation,sunburn,sunlight,waves,wave,sunscreen,light,sun|current||Introduction to radiation pressure.|htm|seniso|2001-08-24 17:45:54|2001-12-02 04:45:14|mmp@msu (Michigan State University)|default
Example: Radiation Pressure|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd615b.htm|momentum,energy,newtons,force,pressure,radiation,sunlight,flux,intensity|current||Example calculating the force acting on a mirror.|htm|seniso|2001-08-24 17:46:38|2001-12-02 04:46:08|mmp@msu (Michigan State University)|default
Radiometer|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/Radiometer.htm|momentum,recoil,thermal,toy,absorber,absorbes,radiometer|current||Explanation of how a radiometer works.|htm|seniso|2001-08-24 17:40:17|2001-12-02 04:49:35|mmp@msu (Michigan State University)|default
Spectrum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd616.htm|frequencies,microwaves,electromagnetic,wavelength,wavelengths,absorption,radiation,waves,light,absorbed,radar,medium,frequency,spectrum,gamma|current||Diagram of the electromagnetic spectrum.|htm|seniso|2001-08-24 18:09:43|2001-12-02 04:47:45|mmp@msu (Michigan State University)|default
Antennas|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd617.htm|oscillating,capacitance,hertz,length,wavelength,induce,wavelengths,heinrich,circuit,radiating,wire,electric,radiation,dipole,antennas,waves,emitted,frequency,alternating,loop|current||Explanation of the use of antennas.|htm|seniso|2001-09-03 11:43:31|2001-12-01 21:24:38|mmp@msu (Michigan State University)|default
Nature of Light|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd618.htm|photoelectric,diffraction,maxwell,energy,hertz,electromagnetic,duality,waveparticle,optics,young,quantumparticle,ray,scattering,planck,einstein,waves,corpuscular,wave,light,newton,huygens,quantum,fresnel|current||Early theories on the nature of light.|htm|seniso|2001-09-03 11:47:55|2001-12-02 04:48:26|mmp@msu (Michigan State University)|default
True-False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves, True False Questions|/res/msu/mmp/kap24/cd621f.htm|vacuum,lt,electromagnetic,length,wavelength,voltage,propagating,source,amplitude,wave,energy,field,speed,ac,electric,radiation,waves,magnetic,polaroids,capacitor,oscillates|current||True-False Practice for tha chapter on electromagnetic waves.|htm|seniso|2001-02-03 13:15:20|2001-12-01 22:23:33|mmp@msu (Michigan State University)|default
Electromagnetic Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap24/sum24.htm|electromagnetic,wavelength,absorption,wave,momentum,energy,reflection,pressure,waves,frequency|current|||htm|seniso|2001-08-24 17:43:29|2001-08-24 17:43:29|mmp@msu (Michigan State University)|default
Chapter Frontpage Electromagnetic Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap24/cd610.htm|electromagnetic,waves|current||Chapter Frontpage Electromagnetic Waves.|htm|seniso|2001-08-24 17:40:58|2001-12-01 21:05:12|mmp@msu (Michigan State University)|default
Electromagnetic Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap24/calckap24.sequence||current|||sequence|seniso|2001-08-24 17:40:02|2001-11-28 18:11:48|mmp@msu (Michigan State University)|default
Angle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd640.problem|angle,mirror,reflection,ray,reflected,light,mirrors|current||Problem:
 Calculation of the magnitude of the reflected angle.|problem|seniso|2001-02-20 18:08:09|2001-10-23 15:51:09|mmp@msu (Michigan State University)|default
Focal Length|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd641.problem|length,convex,mirror,image,focal,magnification|current||Problem:
 Calculation of the focal length of a mirror.|problem|seniso|2001-02-20 18:08:42|2001-10-23 15:53:31|mmp@msu (Michigan State University)|default
Magnification |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd642.problem|length,magnification,mirror,focal,radius,concave,curvature|current||Problem:
 Calculation of the magnification produced by a concave mirror.|problem|seniso|2001-02-20 18:09:00|2001-10-23 15:55:21|mmp@msu (Michigan State University)|default
Ray|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd643.problem|lens,lenses,diverging,intersect,focal,rays|current||Problem:
 Determining which ray passing through a diverging lens is not properly drawn.|problem|seniso|2001-02-20 18:09:24|2001-10-23 15:57:43|mmp@msu (Michigan State University)|default
Angle 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd644.problem|snells,angle,law|current||Problem:
 Calculation of the angle using Snell's Law.|problem|seniso|2001-02-20 18:09:46|2001-10-23 16:00:34|mmp@msu (Michigan State University)|default
Maximum Angle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd645.problem|snells,law,light,reflection,ray|current||Problem:
 Calculation of a maximum angle using Snell's Law.|problem|seniso|2001-02-20 18:10:03|2001-10-23 16:01:59|mmp@msu (Michigan State University)|default
Image |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd646.problem|lens,length,lenses,image,focal,magnification|current||Problem:
 Calculation of image location.|problem|seniso|2001-02-20 18:10:34|2001-10-23 16:03:19|mmp@msu (Michigan State University)|default
Image 2 |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd647.problem|lens,length,lenses,mirror,image,focal|current||Problem:
 Calculation of image location.|problem|seniso|2001-02-20 18:10:49|2001-10-23 16:05:00|mmp@msu (Michigan State University)|default
Image 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd648.problem|length,height,diverging,focal,lens,image,magnification|current||Problem:
 Calculation of the height of an image.|problem|seniso|2001-02-20 18:11:26|2002-03-15 14:33:03|mmp@msu (Michigan State University)|default
Magnification 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd649.problem|diopter,magnifying,length,diopters,inverse,image,magnification|current||Problem:
 Calculation of the magnification of a lens.|problem|seniso|2001-02-20 18:11:45|2001-10-23 16:07:34|mmp@msu (Michigan State University)|default
Minimum height|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd650.problem|vertical,reflecting,mirror,reflection,light|current||Problem:
 Calculation of the minumum height of a mirror.|problem|seniso|2001-02-20 18:12:03|2001-11-25 02:20:06|mmp@msu (Michigan State University)|default
Diopter Lens |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/problems/cd651.problem|diopter,length,focal|current||Problem:
 Calculation of the diopter lens.|problem|seniso|2001-02-20 18:12:24|2001-11-25 02:20:33|mmp@msu (Michigan State University)|default
Mirrors and Lenses| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap25/kap25.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/demo/firewatersm.htm|fire,refraction,pouring,internally|current|||htm|seniso|2001-11-08 18:34:53|2001-11-08 18:34:53|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/demo/convex.htm|principle,convex,image,rays|current|||htm|seniso|2001-11-08 18:33:46|2001-11-08 18:33:46|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/demo/firewater.htm|fire,refraction,filled,pouring|current|||htm|seniso|2001-11-08 18:34:18|2001-11-08 18:34:18|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/demo/concave.htm|concave,principle,lens,image,rays|current|||htm|seniso|2001-11-08 18:33:22|2001-11-08 18:33:22|mmp@msu (Michigan State University)|default
Refraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/picts/refraction_eqn.gif||current||Equation for the index of refraction.|gif|seniso|2001-12-02 03:27:48|2001-12-02 03:27:48|mmp@msu (Michigan State University)|default
Focal Length|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/picts/focal_eqn.gif|focal,length|current||Equation used to calculate the focal length of a surface in kap25/cd636b.htm.|gif|seniso|2001-12-02 03:44:07|2001-12-02 03:44:07|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/picts/image_eqn.gif||current|||gif|seniso|2001-12-02 04:10:25|2001-12-02 04:10:25|mmp@msu (Michigan State University)|default
Image Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/picts/image_eqn2.gif||current||Equation used in kap25/cd603a.htm to find the distance at which an image was formed. |gif|seniso|2001-12-02 04:21:36|2001-12-02 04:21:36|mmp@msu (Michigan State University)|default
Image Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/picts/image_eqn3.gif||current||Equation used in kap25/cd632a.htm to find the image distance.|gif|seniso|2001-12-02 04:27:58|2001-12-02 04:27:58|mmp@msu (Michigan State University)|default
Lens Maker|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/picts/lens_eqn.gif|lens,maker|current||Lens maker equation.|gif|seniso|2001-12-02 04:33:25|2001-12-02 04:33:25|mmp@msu (Michigan State University)|default
Image Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/picts/image_eqn4.gif||current||Equation used to find the image distance in kap25/cd635a.htm|gif|seniso|2001-12-02 04:39:52|2001-12-02 04:39:52|mmp@msu (Michigan State University)|default
Mirror Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/picts/mirror_eqn.gif||current||Equation used to calculate where an image was formed in kap25/cd631a.htm|gif|seniso|2001-12-02 22:56:13|2001-12-02 22:56:13|mmp@msu (Michigan State University)|default
Applet: Refraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/Snell/app.htm|indices,reflection,refraction|current||Applet representing refraction and reflection according to Snell's law.|htm|seniso|2001-11-21 02:02:19|2001-11-21 02:02:19|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Mirrors and Lenses|/res/msu/mmp/kap25/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Reflection|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd623.htm|incidence,angle,reflecting,mirror,reflection,reflected,light,surface,mirrors,images|current||Introduction to reflection for introductory physics.|htm|seniso|2001-08-27 16:22:34|2001-12-02 05:20:36|mmp@msu (Michigan State University)|default
Snell's Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd624.htm|trigonometry,snells,speed,refraction,incident,light,rays|current||Introduction to, and diagram of, Snell's Law.|htm|seniso|2001-08-27 16:24:48|2001-12-02 04:51:01|mmp@msu (Michigan State University)|default
Index of Refraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd625.htm|vacuum,snells,wavelength,light,speed,index,refraction,medium,frequency|current||Explanation of index of refraction and Snell's law.|htm|seniso|2001-08-27 16:25:47|2001-12-02 03:31:18|mmp@msu (Michigan State University)|default
Dispersion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd626.htm|wavelength,rainbows,incoming,dispersion,prism,refraction,deflected,sunlight,light,prisms,medium,angle,wavelengths,droplets,angles,reflection,deflection,reflected,frequency|current|||htm|seniso|2001-08-27 16:26:26|2001-11-08 18:32:37|mmp@msu (Michigan State University)|default
Total Internal Reflection|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd627.htm|snells,angle,optics,incoming,index,angles,reflection,refraction,refracted,ray,reflected,light,optically,surface,rays|current||Explanation of total internal reflection and Snell's law.|htm|seniso|2001-08-27 16:27:45|2001-12-02 04:52:15|mmp@msu (Michigan State University)|default
Total Internal Reflection Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd627a.htm|angle,reflection,ray,reflected,video,internal|current||Example and demonstration of total internal reflection.|htm|seniso|2001-08-27 16:29:07|2001-12-02 04:53:01|mmp@msu (Michigan State University)|default
Plane Mirror|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd628.htm|tracing,radially,virtual,eye,mirror,reflection,directions,ray,reflected,light,mirrors,images,image,plane,observer,rays|current||Explanation and diagram of a plane mirror.|htm|seniso|2001-08-27 16:30:22|2001-12-02 04:53:56|mmp@msu (Michigan State University)|default
Concave Mirror|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd629.htm|reflect,curved,length,mirror,focal,reflection,spherical,ray,reflected,concave,light,surface,mirrors,curvature|current||Explanation and diagram of concave mirror reflections.|htm|seniso|2001-08-27 16:31:51|2001-12-02 04:54:52|mmp@msu (Michigan State University)|default
Concave Mirror Image|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd630.htm|virtual,eye,mirror,focal,ray,reflected,concave,light,image,enlarged,magnification,rays|current||Equations for concave mirror images.|htm|seniso|2001-08-27 16:32:58|2001-12-02 04:55:52|mmp@msu (Michigan State University)|default
Concave Mirror Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd630a.htm|length,mirror,focal,inverted,concave,curvature,image,magnification|current||Example using the concepts of concave mirrors.|htm|seniso|2001-08-27 16:34:20|2001-12-02 04:56:36|mmp@msu (Michigan State University)|default
Real and Virtual Images|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd631.htm|positive,erect,virtual,eyes,object,eye,mirror,focal,inverted,images,curvature,image,enlarged,magnification|current||Explanation of real vs. virtual images.|htm|seniso|2001-08-27 16:35:24|2001-12-02 04:58:55|mmp@msu (Michigan State University)|default
Real and Virtual Images Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd631a.htm|concave,erect,virtual,images,mirror,image,ray|current||Example using the concepts of real and virtual images to determine the characteristics
 of a formed image.|htm|seniso|2001-08-27 16:36:40|2001-12-02 22:58:15|mmp@msu (Michigan State University)|default
Convex Mirror|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd632.htm|length,mirror,focal,ray,concave,mirrors,convex,curvature,image,magnification|current||Mirror equation and principles for convex mirrors.|htm|seniso|2001-09-19 10:47:30|2001-12-02 04:58:07|mmp@msu (Michigan State University)|default
Convex Mirror Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd632a.htm|erect,virtual,object,mirror,radius,light,convex,image,magnification|current||Examples using the concepts of convex mirrors.|htm|seniso|2001-09-19 10:48:05|2002-03-07 15:56:45|mmp@msu (Michigan State University)|default
Light Displacement|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd633.htm|diffraction,snells,incidence,displacements,ray,incident,transmitted,displaced,law,light,lenses,transparent,displacement,beam|current||Introduction tom and diagram of, light displacement and the thin-lens approximation.|htm|seniso|2001-09-19 10:48:27|2001-12-02 05:01:42|mmp@msu (Michigan State University)|default
Lenses|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd634.htm|length,lensmaker,approximation,focal,refraction,refracted,ray,formula,concave,lens,focus,light,lenses,convex,curvature,rays|current||Lens maker equation and an illustration that shows the result of the thin lens approximation|htm|seniso|2001-09-19 10:49:17|2001-12-02 05:02:47|mmp@msu (Michigan State University)|default
Principal Rays for Lenses|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd635.htm|distance,length,mirror,focal,lens,lenses,convex,images,image|current||Explanantion and diagram of principle rays for lenses. Includes a demonstration 
 that explains the path of the principle rays through a convex lens.|htm|seniso|2001-09-19 10:49:52|2001-12-02 05:04:34|mmp@msu (Michigan State University)|default
Rays for Lenses Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd635a.htm|length,mirror,focal,ray,converging,inverted,lens,lenses,image|current||Principle rays for lenses example.|htm|seniso|2001-09-19 10:50:17|2002-03-07 15:51:33|mmp@msu (Michigan State University)|default
Diverging Lens|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd636.htm|demonstration,diverging,refracted,lens,lenses,image,rays|current||Diagram and demonstration of a diverging lens.|htm|seniso|2001-09-19 10:50:46|2001-12-02 05:16:10|mmp@msu (Michigan State University)|default
Diverging Lens Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd636a.htm|erect,length,object,diverging,diagram,focal,lens,image|current||Example and diagram characterizing the image formed by diverging lens.|htm|seniso|2001-09-19 10:51:07|2001-12-02 05:12:58|mmp@msu (Michigan State University)|default
Lens Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd636b.htm|length,focal,converging,concave,lensmakerequation,lens,lenses,convex|current||Example calculating the focal length of a lens w/ one surface being convex and the other concave.|htm|seniso|2001-09-19 10:51:25|2002-03-07 15:49:08|mmp@msu (Michigan State University)|default
Aberrations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd637.htm|dispersions,lengths,telescope,optics,wavelength,dispersion,focal,refraction,hubble,parabolic,lens,chromatic,focus,aberration,light,lenses,nasa,images,aberrations|current||Explanation of aberrations -- random and systematic aberrations.|htm|seniso|2001-09-19 10:51:42|2001-12-02 05:17:12|mmp@msu (Michigan State University)|default
Diopter|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd638.htm|diopter,length,mirror,focal,lens,lenses,optometrists|current||Explanation of the unit Diopter.|htm|seniso|2001-09-19 10:52:39|2002-03-07 15:40:34|mmp@msu (Michigan State University)|default
Fresnel Lens|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd639.htm|prism,circular,concentric,lens,light,lenses,thickness,image,optical,fresnel|current||Introduction to Fresnel lenses.|htm|seniso|2001-09-19 10:53:02|2001-12-02 05:19:51|mmp@msu (Michigan State University)|default
True False Practice, Page 652|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses, True False Questions|/res/msu/mmp/kap25/cd652.htm|distance,mirror,spherical,concave,lens,projector,light,lenses,convex|current|||htm|seniso|2001-02-03 13:16:09|2001-11-08 18:33:01|mmp@msu (Michigan State University)|default
Mirrors and Lenses| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Summaries|/res/msu/mmp/kap25/sum25.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Mirrors and Lenses|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap25/calckap25.sequence||current|||sequence|seniso|2001-11-28 18:12:04|2001-11-28 18:12:04|mmp@msu (Michigan State University)|default
Mirrors and Lenses|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Mirrors and Lenses|/res/msu/mmp/kap25/cd622.htm|lenses,mirrors|current||Mirrors and Lenses frontpage.|htm|seniso|2001-08-27 16:23:19|2001-12-02 04:51:38|mmp@msu (Michigan State University)|default
Reflection|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Mirrors and Lenses|/res/msu/mmp/kap25/cd623a.htm|angle,outgoing,incoming,angles,reflection|current||Example and diagram of reflection.|htm|seniso|2001-08-27 16:24:14|2001-12-02 04:50:18|mmp@msu (Michigan State University)|default
Power|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Optical Instruments|/res/msu/mmp/kap26/problems/cd664.problem|diopter,distance,farsighted,diopters,mirror,lens,power,lenses,nearpoint|current||Problem:
 Calculation of the power of a lens.|problem|seniso|2001-03-23 12:23:34|2002-03-18 14:51:42|mmp@msu (Michigan State University)|default
Farthest Point|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Optical Instruments|/res/msu/mmp/kap26/problems/cd665.problem|point,glasses,diopter,lens,length,nearsighted,lenses,eye,divergent,infinity,focal,corrective,farthest,farpoint,correction|current||Problem:
 Calculation of the farthest point a person is able to read.|problem|seniso|2001-03-22 14:51:05|2001-12-02 23:55:44|mmp@msu (Michigan State University)|default
Focal Length|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Optical Instruments|/res/msu/mmp/kap26/problems/cd666.problem|length,eye,focal,magnifying,nearpoint,magnification,glass|current||Problem:
 Calculation of the focal length of a magnifying lens.|problem|seniso|2001-03-22 14:51:27|2001-12-02 23:56:33|mmp@msu (Michigan State University)|default
Length|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Optical Instruments|/res/msu/mmp/kap26/problems/cd667.problem|length,microscope,microscopes,diopters,focal,ocular,eyepiece,fo,magnification|current||Problem:
 Calculation of the length of an object.|problem|seniso|2001-03-22 14:51:44|2001-12-02 23:57:18|mmp@msu (Michigan State University)|default
Magnitude|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Optical Instruments|/res/msu/mmp/kap26/problems/cd668.problem|radius,concave,eyepiece,length,telescope,mirror,curvature,focal,magnification|current||Problem:
 Calculation of the magnitude of the magnification of a telescope.|problem|seniso|2001-03-22 14:52:01|2001-12-02 23:57:55|mmp@msu (Michigan State University)|default
Anatomy of a microscope|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Optical Instruments|/res/msu/mmp/kap26/problems/cd686d.problem|barrel,virtual,microscope,object,image,ocular,objective,optical|current||Anatomy of a microscope|problem|seniso|2001-03-22 14:52:34|2001-12-02 23:58:38|mmp@msu (Michigan State University)|default
Optical Instruments| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap26/kap26.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Mirror Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Optical Instruments|/res/msu/mmp/kap26/picts/mirror_eqn2.gif||current||Mirror equation used on kap26/cd656.htm|gif|seniso|2001-12-02 23:06:16|2001-12-02 23:06:16|mmp@msu (Michigan State University)|default
Mirror Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Optical Instruments|/res/msu/mmp/kap26/picts/mirror_eqn3.gif||current||Mirror Equation used to fnd the image distance in kap26/cd656.htm|gif|seniso|2001-12-02 23:41:05|2001-12-02 23:41:05|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Optical Instruments|/res/msu/mmp/kap26/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Two Lenses|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd654.htm|intermediate,virtual,focal,converging,inverted,point,lens,lenses,image,rays|current||Diagram and characteristics of the combination of two converging lenses.|htm|seniso|2001-08-31 15:55:43|2001-12-03 00:00:35|mmp@msu (Michigan State University)|default
Lens Combinations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd655.htm|lens,combinations,magnifications,image,magnification|current||Explanation of how to calculate magnifications and image locations for two-lens systems using the lens
 equation.|htm|seniso|2001-08-31 15:56:06|2001-12-02 23:59:21|mmp@msu (Michigan State University)|default
Lens Combination Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd656.htm|distance,collecting,lens,combination,diverging,mirror,location,image|current||Example using the concepts of collecting and diverging lenses to find where an image is 
 formed.|htm|seniso|2001-08-31 15:56:24|2002-03-07 16:06:50|mmp@msu (Michigan State University)|default
Human Eye|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd657.htm|retina,pupil,eye,refraction,iris,cornea,lens,curvature,electochemical,optical|current||The human eye as an optical instrument.|htm|seniso|2001-08-31 15:56:42|2001-12-03 00:01:35|mmp@msu (Michigan State University)|default
Human Lens System|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd658.htm|aircornea,retina,lens,length,lenses,human,eye,refractive,mirror,image|current||Refractive properties of the human lens system.|htm|seniso|2001-08-31 15:57:27|2001-12-03 00:02:20|mmp@msu (Michigan State University)|default
Eye Defects|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd659.htm|farsightedness,retina,elongated,nearsightedness,diverging,eye,eyeball,converging,correction,astigmatism,hypermetropia,lens,lenses,prebyopia,corrections,blurred|current||Introduction to eye defects and corrections.|htm|seniso|2001-08-31 15:57:55|2001-12-03 00:03:13|mmp@msu (Michigan State University)|default
Eye Defect - Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd660.htm|glasses,diopter,lens,focus,farsighted,virtual,lenses,eye,mirror,inverse,image|current||Eye defect example.|htm|seniso|2001-08-31 15:58:30|2001-12-03 00:04:15|mmp@msu (Michigan State University)|default
Angular Magnification|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd660a.htm|angle,telescope,angular,telescopes,microscope,eyes,eye,microscopes,angles,eyepiece,increase,image,magnification|current||Explanation of the use of microscopes and telescopes for angular magnification. |htm|seniso|2001-08-31 15:58:57|2001-12-04 00:39:19|mmp@msu (Michigan State University)|default
Example: Angular Magnification|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd660b.htm|angular,eye,magnification|current||Examples using the concepts of angular magnification.|htm|seniso|2001-08-31 15:59:41|2001-12-04 00:40:35|mmp@msu (Michigan State University)|default
Camera|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd661.htm|aperture,eyepiece,cameras,lens,reflector,shutter,light,camera,lenses,slr,exposure,eye,mirror,image,focal,film,prism,optical,viewfinding|current||Diagram and use of a camera.|htm|seniso|2001-08-31 16:00:05|2001-12-04 00:41:08|mmp@msu (Michigan State University)|default
Microscope|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd662.htm|eyepiece,magnifying,lens,length,virtual,lenses,microscope,magnifications,image,focal,ocular,enlarged,converging,magnification,glass,inverted|current||Anatomy of a microscope.|htm|seniso|2001-08-31 16:00:58|2001-12-04 00:41:44|mmp@msu (Michigan State University)|default
Microscope Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd662a.htm|eyepiece,barrel,microscope,focal,magnification|current||Example calculating the total magnification of a microscope.|htm|seniso|2001-08-31 16:01:42|2001-12-04 00:42:23|mmp@msu (Michigan State University)|default
Telescope|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd663.htm|eyepiece,lengths,piece,lens,length,telescope,angular,eye,infinity,mirror,image,focal,aberrations,magnifier,magnifies,magnification|current||Diagram and use of a telescope as an optical instrument.|htm|seniso|2001-08-31 16:02:02|2001-12-04 00:42:51|mmp@msu (Michigan State University)|default
Telescope Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd663a.htm|eyepiece,length,telescope,angular,focal,magnification|current||Example calculating the angular magnification of a telescope.|htm|seniso|2001-08-31 16:03:36|2001-12-04 00:43:33|mmp@msu (Michigan State University)|default
Optical Instruments|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap26/sum26.htm|telescope,microscope,prescription,lens,optical,magnification|current|||htm|seniso|2001-08-31 16:03:54|2002-03-28 05:32:01|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd663b.htm|myopia,length,elongated,nearsightedness,microscope,eye,magnifications,eyeball,focal,refraction,converging,inverted,lens,camera,lenses,muscles,magnification|current||True False Practice for the chapter on optical instruments.|htm|seniso|2001-08-31 16:02:51|2001-12-02 23:53:48|mmp@msu (Michigan State University)|default
Optical Instruments|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap26/calckap26.sequence||current|||sequence|seniso|2001-11-28 18:12:24|2001-11-28 18:12:24|mmp@msu (Michigan State University)|default
Chapter Frontpage Optical Instruments|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/kap26/cd653.htm|instruments,optical|current||Chapter Frontpage Optical Instruments|htm|seniso|2001-08-31 15:55:13|2001-12-03 00:00:11|mmp@msu (Michigan State University)|default
Separation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd684.problem|maximum,slits,maxima,wavelength,double,slit,separation,interference|current||Problem:
 Calculation of the separation of the adjacent interference maximum on a screen.|problem|seniso|2001-03-22 14:53:00|2001-12-02 05:21:53|mmp@msu (Michigan State University)|default
Glass Thickness|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd685.problem|illuminated,distance,maxima,length,wavelength,minima,wavelengths,index,refraction,ray,slit,rays|current||Problem:
 Calculation of the glass thickness.|problem|seniso|2001-03-22 14:53:27|2001-12-02 05:23:44|mmp@msu (Michigan State University)|default
Minimum Thickness|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd686.problem|constuctive,maximum,thin,refraction,reflected,light,thickness,interference,film|current||Problem:
 Calculation of the minumum thickness of a film.|problem|seniso|2001-03-22 14:53:47|2001-12-03 00:15:18|mmp@msu (Michigan State University)|default
Thickness|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd687.problem|minimum,maximum,transmission,coated,lens,wave,index,film,reflection,refraction,coating|current||Problem:
 Calculation of the thickness of a film.|problem|seniso|2001-03-22 14:54:05|2001-12-03 00:15:53|mmp@msu (Michigan State University)|default
Wavelength|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd688.problem|constructive,monochromatic,interferometer,michelson,destructive,wave,wavelength,light,interference,mirror|current||Problem:
 Calculation of the wavelength of light in a monochromatic source.|problem|seniso|2001-03-22 14:54:30|2001-12-03 00:21:58|mmp@msu (Michigan State University)|default
Hair Thickness|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd689.problem|constructive,hair,fringes,wavelength,light,wedge,interference,glass|current||Problem:
 Calculation of the thickness of the hair between two pieces of glass.|problem|seniso|2001-03-22 14:54:50|2001-12-03 00:19:24|mmp@msu (Michigan State University)|default
Lines|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd690.problem|diffraction,slits,angle,wavelength,lines,grating,light|current||Problem:
 Calculation of the number of lines per cm of a diffraction grating.|problem|seniso|2001-03-22 14:55:14|2001-12-03 00:20:24|mmp@msu (Michigan State University)|default
Highest Order|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd691.problem|maximum,diffraction,integer,line,maxima,light,separation,grating|current||Problem:
 Calculation of the highest order in a diffraction grating.|problem|seniso|2001-03-22 14:55:32|2001-12-03 00:22:50|mmp@msu (Michigan State University)|default
Slit Width|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd692.problem|slit,minimum,maximum,diffraction,light,width,single|current||Problem:
 Calculation of the slit width in a single slit diffraction pattern.|problem|seniso|2001-03-22 14:55:52|2001-12-03 00:21:07|mmp@msu (Michigan State University)|default
Minima order|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd692a.problem|diffraction,minima,slit|current||Click on the point: single slit diffraction pattern.|problem|seniso|2001-03-22 14:56:11|2001-12-03 00:18:30|mmp@msu (Michigan State University)|default
Central Maximum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd693.problem|pattern,maximum,diffraction,central,slit,light,single|current||Problem:
 Calculation of the width of the central maximum in a thin slit diffraction pattern.|problem|seniso|2001-03-22 14:56:32|2001-12-03 00:17:50|mmp@msu (Michigan State University)|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/problems/cd694.problem|aperture,circular,minimum,angle,line,distance,length,wavelength,linear,vertex,diameter,vertices|current||Problem:
 Calculation of the distance of two objects.|problem|seniso|2001-03-22 14:56:53|2001-12-03 00:16:42|mmp@msu (Michigan State University)|default
Interference and Diffraction| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap27/kap27.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Interference Maxima|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/picts/maxima_eqn.gif||current||Equation used in kap27/cd675.htm find the  separation between adjacent 
 interference maxima.  |gif|seniso|2001-12-03 22:12:13|2001-12-03 22:12:13|mmp@msu (Michigan State University)|default
Wavelength|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/picts/lambda_eqn.gif|wavelength|current||Equation used in cd678.htm to calculate the wavelength in a thin film example.|gif|seniso|2001-12-03 22:28:03|2001-12-03 22:28:03|mmp@msu (Michigan State University)|default
Applet: Diffraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/Gary-Diffraction/app.htm|diffraction,slit,color,pattern,applet|current|||htm|seniso|2001-04-04 14:45:15|2001-11-08 18:30:09|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/Gary-Diffraction/diffrac.html||current|||html|seniso|2001-11-08 18:30:44|2001-11-08 18:30:44|mmp@msu (Michigan State University)|default
Applet: Simple Two-Slit Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/Gary-Inter2/app.htm|wavelength,slit,light,interference|current|||htm|seniso|2001-11-10 11:08:22|2001-11-10 11:08:22|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/Gary-Inter2/inter2.html|slit,interference|current|||html|seniso|2001-11-10 11:08:41|2001-11-10 11:08:41|mmp@msu (Michigan State University)|default
Applet: Two-Slit with Diffraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/Gary-TwoSlit/app.htm|diffraction,wavelength,slit,applet,doubleslit|current|||htm|seniso|2001-04-04 14:55:06|2001-11-10 11:09:14|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/Gary-TwoSlit/twoslit.html|simulation,slit|current|||html|seniso|2001-11-10 11:09:26|2001-11-10 11:09:26|mmp@msu (Michigan State University)|default
Polarization|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap27/cd683.htm|transmission,polarization,field,polarizers,fields,parallel,unpolarized,electric,direction,propagation,transmitted,waves,magnetic,perpendicular,polarizations,polarized,intensity|current||Introduction to polarization of light.|htm|seniso|2001-09-07 14:26:04|2001-12-04 00:46:52|mmp@msu (Michigan State University)|default
Polarization Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/kap27/cd683a.htm|incident,rotated,polarization,polarizers,light,polarized,polarizer,intensity|current||Example calculating the intensity and direction of polarized light.|htm|seniso|2001-09-07 14:26:37|2001-12-03 22:54:01|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Interference and Diffraction|/res/msu/mmp/kap27/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd670.htm|diffraction,electromagnetic,phenomena,polarization,field,optics,apertures,phases,introduction,electric,phenomenon,amplitude,waves,magnetic,patterns,wave,interference,mirrors,frequency|current||Introduction to the chapter on interference and diffraction.|htm|seniso|2001-09-07 14:16:47|2001-12-03 00:49:15|mmp@msu (Michigan State University)|default
Superposition of Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd671.htm|constructive,destructive,constructively,superimposing,amplitude,superimposed,waves,wave,interference,interfere,frequency|current||Introduction to, and illustration of, constructive and destructive interference of waves.|htm|seniso|2001-09-07 14:17:37|2001-12-03 22:47:18|mmp@msu (Michigan State University)|default
Double Slit Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd672.htm|constructive,slits,spherically,destructive,wavelength,young,phase,source,coherent,slit,waves,wave,light,interference|current||Introduction to double slit interference of light waves.|htm|seniso|2001-09-07 14:18:05|2001-12-03 22:48:20|mmp@msu (Michigan State University)|default
Path Difference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd673.htm|slits,path,double,phase,split,source,coherent,waves,light,interfere|current||Explanation of the path difference between two waves in a doulbe slit interference experiment|htm|seniso|2001-09-07 14:18:41|2001-12-03 22:49:24|mmp@msu (Michigan State University)|default
Constructive/Destructive Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd674.htm|constructive,line,destructive,wavelength,double,slit,interference|current||Explanation of constructive/destructive interference for a double slit.|htm|seniso|2001-09-07 14:19:40|2001-12-04 00:33:14|mmp@msu (Michigan State University)|default
Double Slit Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd675.htm|slit,pattern,slits,wavelength,interference,double|current||Example calculating the separation between interference maxima in a double slit experiment.|htm|seniso|2001-09-07 14:20:10|2001-12-03 22:53:03|mmp@msu (Michigan State University)|default
Thin Film Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd676.htm|constructive,reflected,monochromatic,incident,destructive,wavelength,light,thickness,perpendicularly,interference,index,film,reflection,refraction,colors,medium,ray|current||Introduction to thin film interference.|htm|seniso|2001-09-07 14:20:32|2001-12-04 00:34:16|mmp@msu (Michigan State University)|default
Thin Film between Two Materials|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd676a.htm|constructive,destructive,thin,interference,film,reflection,refraction,coating|current||Constructive/destructive reflection for a thin film between two materials.|htm|seniso|2001-09-07 14:21:06|2001-12-04 00:35:23|mmp@msu (Michigan State University)|default
Lens Coatings|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd677.htm|coatings,wavelength,reflecting,wavelengths,coat,refraction,reflected,photograph,transmitted,lens,lenses,reflections,binocular,glass,coating|current||Explanation of the use of lens coatings.|htm|seniso|2001-09-07 14:21:29|2001-12-03 23:42:52|mmp@msu (Michigan State University)|default
Thin Film Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd678.htm|constructive,reflected,reflect,lengths,lens,destructive,wave,thin,wavelength,light,interference,wavelengths,index,film,refraction,constructively,glass|current||Calculation of the color of the reflected light in a thin film example.|htm|seniso|2001-09-07 14:22:17|2001-12-03 22:30:32|mmp@msu (Michigan State University)|default
Interferometers|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd679.htm|interferometer,electromagnetic,length,wavelength,parallel,mirror,split,source,interferometers,michelson,waves,light,medium,observer,ether|current||Explanation of the use of an interferometer.|htm|seniso|2001-09-07 14:23:01|2001-12-03 23:44:53|mmp@msu (Michigan State University)|default
Diffraction Grating|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd680.htm|monochromatic,illuminate,slit,maximum,superposition,diffraction,integer,slits,maxima,length,waves,wavelength,light,interference,interfere,angles,lines,grating,glass,gratings|current||Introduction to diffraction gratings.  |htm|seniso|2001-09-07 14:23:45|2001-12-04 00:21:10|mmp@msu (Michigan State University)|default
Diffraction by a Single Slit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd681.htm|illuminate,slit,diffraction,maxima,length,wave,wavelength,light,separation,angles,single,intensity|current||Introduction to, and illustrations of, single slit diffraction.|htm|seniso|2001-09-07 14:24:24|2001-12-04 00:44:39|mmp@msu (Michigan State University)|default
Resolving Power|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd682.htm|aperture,illuminates,diffraction,slits,photographs,telescope,apertures,rayleigh,slit,lens,separating,camera,images|current||Introduction to resolving power.|htm|seniso|2001-09-07 14:25:04|2001-12-04 00:45:51|mmp@msu (Michigan State University)|default
Resolving Power Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap27/cd682a.htm|distance,lens,angular,power,observe,diameter,resolving,aberrations,resolution|current||Example using the concepts of resolving power.|htm|seniso|2001-09-07 14:25:37|2001-12-03 22:55:10|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction, True False Questions|/res/msu/mmp/kap27/cd696.htm|slit,pattern,diffraction,slits,spacing,distance,lens,reflector,polarizers,power,patterns,wave,wavelength,light,thickness,interference,apertures,film,polarizer,act,screen,frequency|current||True False Practice for the chapter on interference and diffraction.|htm|seniso|2001-02-03 13:16:58|2001-12-03 22:14:32|mmp@msu (Michigan State University)|default
Interference| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Summaries|/res/msu/mmp/kap27/sum27.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Optical Path Length|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/cd673a.htm|length,wavelength,wavelengths,index,refraction,radiation,density,destructively,interfere,frequency|current||Introduction to optical path length.|htm|seniso|2001-09-07 14:19:08|2001-12-04 00:22:10|mmp@msu (Michigan State University)|default
Interference and Diffraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap27/calckap27.sequence||current|||sequence|seniso|2001-11-28 18:12:41|2001-11-28 18:12:41|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/Preview.html|approximate,angle,slit,interference|current|||html|seniso|2001-09-07 14:15:22|2001-09-07 14:15:22|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/Preview103.html|monochromatic,wavelength,reflection,refraction,reflected,transmitted,thickness,beam|current|||html|seniso|2001-09-07 14:15:47|2001-09-07 14:15:47|mmp@msu (Michigan State University)|default
Chapter frontpage|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Interference and Diffraction|/res/msu/mmp/kap27/cd669.htm||current||Chapter frontpage for interference and diffraction.|htm|seniso|2001-09-07 14:16:28|2001-12-03 00:49:52|mmp@msu (Michigan State University)|default
Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity04.problem|speed|current|||problem|seniso|2001-03-22 14:58:15|2001-08-31 16:28:15|mmp@msu (Michigan State University)|default
Vulcan|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity03.problem|period,orbital,vulcan,frame,circumference,lorentz|current|||problem|seniso|2001-03-22 14:57:55|2001-08-31 16:27:51|mmp@msu (Michigan State University)|default
Voyager|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity07.problem|reference,frame,paradox,relativistic,light,starship,voyager,relativity,dilation|current|||problem|seniso|2001-03-22 14:59:14|2001-08-31 16:29:22|mmp@msu (Michigan State University)|default
Enterprise|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity01.problem|enterprise,starship,dilation,gamma,contraction|current|||problem|seniso|2001-03-22 14:57:17|2001-08-31 16:27:09|mmp@msu (Michigan State University)|default
Redshift|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity10.problem|redshifts,space,redshift,velocity|current|||problem|seniso|2001-03-22 15:00:12|2001-08-31 16:30:27|mmp@msu (Michigan State University)|default
Transformation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity09.problem|according,lorentz,velocity,transformation|current|||problem|seniso|2001-03-22 14:59:53|2001-08-31 16:30:12|mmp@msu (Michigan State University)|default
Two ships in the night|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity02.problem|ship,light,starship|current|||problem|seniso|2001-03-22 14:57:35|2001-08-31 16:27:31|mmp@msu (Michigan State University)|default
Burger after the show|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity12.problem|joules,energy,pounder,grams,burger|current|||problem|seniso|2001-03-30 13:59:53|2001-08-31 17:00:28|mmp@msu (Michigan State University)|default
Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity05.problem|momentum,energy,proton,gev,accelerator|current|||problem|seniso|2001-03-22 14:58:36|2001-08-31 16:28:32|mmp@msu (Michigan State University)|default
Pancakes|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity06.problem|heavy,energy,collider,ion,energies,nuclei,brookhaven,nucleon,relativistic,gammafactor,nucleus,contraction|current|||problem|seniso|2001-03-22 14:58:53|2001-08-31 16:28:51|mmp@msu (Michigan State University)|default
Same Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity08.problem|beams,mev,proton,beam|current|||problem|seniso|2001-03-22 14:59:33|2001-08-31 16:29:53|mmp@msu (Michigan State University)|default
Black Hole|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/problems/relativity11.problem|masses,schwarzschild,radius,mass|current|||problem|seniso|2001-03-22 15:00:32|2001-08-31 16:30:46|mmp@msu (Michigan State University)|default
Hamburger|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/picts/Hamburger.jpg||current|||jpg|seniso|2001-08-31 16:59:03|2001-08-31 16:59:03|mmp@msu (Michigan State University)|default
Gamma Approximation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/picts/gamma_eqn.gif||current||Approximation for gamma at small speeds.|gif|seniso|2001-11-20 17:19:23|2001-11-20 17:19:23|mmp@msu (Michigan State University)|default
Kinetic Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/picts/ke_eqn.gif|kinetic,energy|current||Equation for kinetic energy at small velocities.|gif|seniso|2001-11-20 17:23:42|2001-11-20 17:23:42|mmp@msu (Michigan State University)|default
Gamma Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/picts/gamma_eqn2.gif||current|||gif|seniso|2001-11-20 17:32:00|2001-11-20 17:32:00|mmp@msu (Michigan State University)|default
Diameter Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/picts/diameter_eqn.gif||current|||gif|seniso|2001-11-20 18:03:49|2001-11-20 18:03:49|mmp@msu (Michigan State University)|default
Diameter Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/picts/diameter_eqn2.gif||current|||gif|seniso|2001-11-20 18:05:07|2001-11-20 18:05:07|mmp@msu (Michigan State University)|default
Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/picts/force_eqn2.gif||current|||gif|seniso|2001-11-20 18:14:54|2001-11-20 18:14:54|mmp@msu (Michigan State University)|default
Relativity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/relativity/relativity.sequence||current|||sequence|seniso|2001-03-27 15:45:25|2001-04-09 11:48:02|mmp@msu (Michigan State University)|default
Applet: Space Travel|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/travel/rel.htm|contracted,twin,paradox,length,light,relativity,travel,velocity|current||Applet that allows you to experience the consequences of special relativity.|htm|seniso|2001-11-20 19:27:14|2001-11-20 19:27:14|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Relativity|/res/msu/mmp/relativity/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Einstein|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/einstein.htm|photoelectric,scientist,motion,atoms,molecules,nobel,atom,einstein,theory,atomic,theoretical,particles,relativity,brownian,scientific,quantum,bomb|current||Biography of Albert Einstein.|htm|seniso|2001-08-31 16:08:55|2001-11-20 17:28:09|mmp@msu (Michigan State University)|default
Postulates of Relativity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/postulates.htm|experiment,reference,speed,einsteins,frame,postulates,morley,laser,einstein,postulate,michelson,theory,space,light,relativity,velocity,relative|current|||htm|seniso|2001-08-31 16:19:32|2001-08-31 16:19:32|mmp@msu (Michigan State University)|default
Time Dilation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/time.htm|reference,length,pythagorus,mirror,frame,dilated,clock,light,relativity,dilation,beam,velocity|current|||htm|seniso|2001-08-31 16:23:54|2001-08-31 16:23:54|mmp@msu (Michigan State University)|default
Example: Time Dilation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/time_exa.htm|cern,clocks,lifetime,accelerator,dilated,subatomic,accelerators,atomic,dilation,muon,laboratory|current|||htm|seniso|2001-08-31 16:24:57|2001-08-31 16:24:57|mmp@msu (Michigan State University)|default
Twin Paradox|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/twin.htm|reference,twin,inertial,frame,astronaut,paradox,relativity,gamma|current|||htm|seniso|2001-04-02 13:33:30|2001-08-31 16:25:41|mmp@msu (Michigan State University)|default
Gamma and Beta|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/gamma.htm|approximate,beta,speeds,speed,light,dilation,relative,gamma|current||Relations to beta and gamma at small and large speeds.  Includes a plot of
 plot gamma as a function of beta.|htm|seniso|2001-08-31 16:12:01|2001-11-20 17:38:45|mmp@msu (Michigan State University)|default
Example: Gamma and Beta|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/gamma_exa.htm|moon,speeds,spacecrafts,relativistic,light,relativity,spacecraft,gamma|current||Example calculating the relativistic factors, beta and gamma for a spacecraft.|htm|seniso|2001-08-31 16:12:33|2001-11-20 17:42:48|mmp@msu (Michigan State University)|default
Frequency Shift|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/redshift.htm|shifted,quantities,everexpanding,hubble,sc,einstein,universe,red,inversely,redshifted,propagate,telescope,relativistic,wavelength,doppler,telescopes,light,galaxy,galaxies,effect,dilation,shift,medium,observer,velocity,frequency,ether|current||Introduction to frequency shift.|htm|seniso|2001-08-31 16:20:53|2001-11-20 18:19:46|mmp@msu (Michigan State University)|default
Length Contraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/length.htm|contracted,rest,length,clock,relativity,speed,beam,observer,frame,dilated,contraction|current||Explanation of the length contraction of a moving object.|htm|seniso|2001-08-31 16:16:30|2001-11-20 17:53:30|mmp@msu (Michigan State University)|default
Example: Length Contraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/length_exa.htm|length,speed,contraction|current||Example using the concepts of length contraction to calculate the speed of an 
 object from it's length contraction.|htm|seniso|2001-08-31 16:17:27|2001-11-20 17:55:51|mmp@msu (Michigan State University)|default
Example: Earth|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/length_exa2.htm|contracted,length,lengthcontraction,astronomical,speed,diameter,contraction|current||Example calculating the effect of length contraction on the Earth's diameter.|htm|seniso|2001-08-31 16:17:55|2001-11-20 18:07:10|mmp@msu (Michigan State University)|default
Lorentz Transformation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/lorentz.htm|coordinate,point,reference,velocities,galilean,speed,lorentz,dilation,frames,velocity,transformation,relative|current||Introduction to Lorentz transformations.|htm|seniso|2001-08-31 16:18:22|2001-11-20 18:09:41|mmp@msu (Michigan State University)|default
Relativistic Velocity Addition|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/velocity.htm|reference,speed,frame,laser,einstein,postulate,velocities,relativistic,light|current|||htm|seniso|2001-08-31 16:26:32|2001-08-31 16:26:32|mmp@msu (Michigan State University)|default
Relativistic Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/momentum.htm|momentum,relativistic,speed,velocity,relativistically|current||Relations between the classical definition and the relativistic defintions of 
 momentum.  Includes a graph of the classical momentum vs. relativistic.|htm|seniso|2001-08-31 16:19:02|2001-11-20 18:16:27|mmp@msu (Michigan State University)|default
Relativistic Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/energy.htm|momentum,energy,speeds,approximation,einstein,kinetic,classical,mass,relativistic|current||Introduction to relativistic energy.|htm|seniso|2001-08-31 16:10:40|2001-11-20 17:26:50|mmp@msu (Michigan State University)|default
Energy and Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/eandp.htm|momentum,energy,speed,mass,relativistic,photon,particle|current||Relationship between momentum and energy of an object.|htm|seniso|2001-08-31 16:08:33|2001-11-20 17:14:52|mmp@msu (Michigan State University)|default
Example: Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/energy_exa.htm|momentum,energy,speed,kinetic,light,electron|current||Example calculating the total energy, kinetic energy and the momentum of an 
 electron travelling at .99% the speed of light.|htm|seniso|2001-08-31 16:11:16|2001-11-20 17:35:55|mmp@msu (Michigan State University)|default
General Relativity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/general.htm|masses,relativy,curved,reference,general,freely,inertial,gravitational,gravity,path,nonrotating,equivalent,electrostatic,force,newtonian,dimensions,attraction,accelerating,acceleration,einstein,mass,space,relativity,albert,newton,curvature,weight|current||Introduction to the general theory of relativity.|htm|seniso|2001-08-31 16:13:02|2001-11-20 17:44:50|mmp@msu (Michigan State University)|default
Black Holes|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Relativity|/res/msu/mmp/relativity/hole.htm|hole,collapse,curved,general,gravity,schwarzschild,holes,newtonian,spacetime,radius,eddington,densities,mass,black,space,light,solar,relativity,curvature|current||Introduction to black holes.|htm|seniso|2001-08-31 16:14:06|2001-11-20 17:48:35|mmp@msu (Michigan State University)|default
Relativity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/relativity/sumrel.htm|beta,energy,wavelength,doppler,speed,shift,relativity,lorentz,dilation,velocity,frequency,gamma,contraction|current|||htm|seniso|2001-08-31 16:23:22|2001-08-31 16:23:22|mmp@msu (Michigan State University)|default
Relativity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/relativity.htm|relativity|current|||htm|seniso|2001-08-31 16:22:55|2001-08-31 16:22:55|mmp@msu (Michigan State University)|default
Classical Velocity Addition|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/galilei.htm|addition,classical,velocity|current||Classical velocity addition page.|htm|seniso|2001-08-31 16:11:37|2001-11-20 17:37:18|mmp@msu (Michigan State University)|default
Black Hole Simulation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/holevid.htm|hole,star,starlight,black,space,gravity,holes,hawking,images,constellation,animation,dark,orion,observer,frame,deflected,betelgeuse|current||NASA video simulation of what it would look like to approach a black hole.
 |htm|seniso|2001-08-31 16:15:13|2001-11-20 17:49:43|mmp@msu (Michigan State University)|default
Red Shift|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Relativity|/res/msu/mmp/relativity/redshiftmovie.htm|distant,universe,red,density,galaxies,shift,frequency|current||Simulation that shows the density of galaxies moving outwards in increasingly distant shells in the red shift. |htm|seniso|2001-08-31 16:22:04|2001-11-20 19:29:12|mmp@msu (Michigan State University)|default
Relativity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/relativity/calcrelativity.sequence||current|||sequence|seniso|2001-03-27 15:45:25|2001-11-28 18:20:49|mmp@msu (Michigan State University)|default
Maximum Intensity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd707.problem|wavelength,blackbody,intensity,star,temperature,radiation,wiens,surface|current||Problem:
 Calculation of the wavelength at which max. intensity occurs for a star.|problem|seniso|2001-04-05 18:04:45|2002-04-18 12:51:30|mmp@msu (Michigan State University)|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd708.problem|energy,wavelength,photon|current||Problem:
 Calculation of the energy of a photon.|problem|seniso|2001-04-05 18:06:02|2001-11-25 23:28:35|mmp@msu (Michigan State University)|default
Retarding Potential|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd709.problem|photoelectric,wavelength,light,potential,electrons,retarding|current||Problem:
 Calculation of retarding potential.|problem|seniso|2001-04-05 18:06:19|2001-11-25 23:29:30|mmp@msu (Michigan State University)|default
Wavelength|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd710.problem|monochromatic,wavelength,light,compton,electron,shift|current||Problem:
 
 Calculate the change in wavelength of monochromatic light.|problem|seniso|2001-04-05 18:06:37|2001-11-25 23:30:23|mmp@msu (Michigan State University)|default
Wavelength 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd713.problem|de,momentum,broglie,wavelength,proton,speed|current||Problem:
 Calculation of the wavelength of a proton.
 |problem|seniso|2001-04-05 18:06:55|2001-11-25 23:31:47|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd714.problem|principle,position,heisenberg,velocity,uncertainty|current||Problem:
 Calculation of the uncertainty in the velocity of a ball.|problem|seniso|2001-04-05 18:07:09|2001-11-25 23:32:42|mmp@msu (Michigan State University)|default
Minimum Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd715.problem|minimum,principle,heisenberg,uncertainty|current||Problem:
 Calculation of the minimum energy of a projectile.|problem|seniso|2001-04-05 18:07:29|2001-11-25 23:33:56|mmp@msu (Michigan State University)|default
Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd716.problem|mass,photon,particle,electron,annihilate,frequency|current||Problem:
 Calculation of the frequencty of emitted photons.|problem|seniso|2001-04-05 18:07:51|2001-11-25 23:35:07|mmp@msu (Michigan State University)|default
Bohr radius|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd7301.problem|radius,atom,hydrogen,bohr,level|current||Problem:
 Calculation of the radius of an n level in the Bohr hydrogen atom.|problem|seniso|2001-04-05 18:08:41|2001-11-25 23:36:14|mmp@msu (Michigan State University)|default
Bohr transition|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd7303.problem|subatomic,atom,radiation,hydrogen,energy,bohr,ev,wavelength,electron|current||Problem:
 Calculation of the wavelength of emitted radiation.|problem|seniso|2001-04-05 18:09:34|2001-11-25 23:37:49|mmp@msu (Michigan State University)|default
Bohr angular momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd7304.problem|atom,momentum,hydrogen,bohr,level,angular,electron|current||Problem:
 Calculation of the angular momentum in a level in the Bohr Hydrogen atom.|problem|seniso|2001-04-05 18:09:54|2001-11-25 23:39:02|mmp@msu (Michigan State University)|default
Quantum mechanical angular momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd7304a.problem|atom,momentum,hydrogen,angular,mechanics,quantum,electron|current||Problem:
 Calculation of the angular momentum in a level in the Hydrogen atom.|problem|seniso|2001-04-05 18:10:11|2001-11-25 23:40:23|mmp@msu (Michigan State University)|default
Absorption|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/problems/cd7305.problem|atom,hydrogen,energy,bohr,level,ev,photon,electron|current||Problem:
 Calculation of the minimum energy of a photon in the Bohr Hydrogen atom.|problem|seniso|2001-04-05 18:10:23|2001-11-25 23:41:24|mmp@msu (Michigan State University)|default
Origins of Quantum Theory|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap28/kap28.sequence||current|||sequence|seniso|2001-04-10 17:36:19|2001-04-11 10:27:14|mmp@msu (Michigan State University)|default
Wien's Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/picts/wien_eqn.gif||current|||gif|seniso|2001-11-25 22:28:25|2001-11-25 22:28:25|mmp@msu (Michigan State University)|default
Energy Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/picts/energy_eqn.gif|energy,photon, planck|current||Equation for the energy of a photon.|gif|seniso|2001-11-25 23:13:31|2001-11-25 23:13:31|mmp@msu (Michigan State University)|default
Applet: Photo Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/PhotoEffect/photo.htm|photoelectric,photocurrent,wavelength,wavelengths,applet,cesium|current|||htm|seniso|2001-09-03 11:42:30|2001-09-03 11:42:30|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Origins of Quantum Theory|/res/msu/mmp/kap28/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd698.htm|photoelectric,radiation,diffraction,momentum,energy,classical,position,electromagnetic,theory,physical,black,quanta,nuclear,light,atomic,simultaneously,quantization,quantum,body,newtonian,states,elements,electrons,quantized,uncertainty,subnucleon|current||Introduction to quantum theory for introductory physics.|htm|seniso|2001-09-03 11:30:51|2001-11-25 22:15:34|mmp@msu (Michigan State University)|default
Black Body Radiation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd699.htm|radiation,temperatures,incident,shifts,th,classical,electromagnetic,red,black,waves,pyrometer,radiates,wavelength,ultraviolet,infrared,absorb,radiate,wavelengths,displacement,catastrophe,temperature,body,intensity,spectrum,radiating,emitter,divergence|current||Introduction to black body radiation.  Includes a graph that shows the 
 distribution of electromagnetic radiation emitted from a black body as a 
 function of wavelength. |htm|seniso|2001-09-03 11:31:25|2001-11-25 22:16:43|mmp@msu (Michigan State University)|default
Black Body Examples|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd699a.htm|radiation,wiens,black,law,emits,temperature,body,intensity|current||Examples using the concepts of black body radiation.|htm|seniso|2001-09-03 11:32:13|2001-11-25 23:43:54|mmp@msu (Michigan State University)|default
Quantization of Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd700.htm|photons,radiation,oscillator,oscillators,energy,electromagnetic,black,quanta,ultraviolet,quantization,hz,plancks,body,quantized|current||Introduction to quantization of energy and Planck's constant.|htm|seniso|2001-09-03 11:32:30|2001-11-25 22:36:08|mmp@msu (Michigan State University)|default
Photoelectric Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd701.htm|photoelectric,kemax,radiation,einstein,kinetic,energy,electromagnetic,ultraviolet,work,emission,einsteins,escape,circuit,electron,function,intensity,emitted,threshold,electrons,voltage,frequency,quantized|current||Introduction to the photoelectric effect.|htm|seniso|2001-09-03 11:33:04|2001-11-25 23:08:15|mmp@msu (Michigan State University)|default
Photoelectric Effect Examples|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd701a.htm|photoelectric,incident,energy,photocurrent,photon,light,work,voltages,effect,function,electrons,voltage,frequency|current||Examples using the concepts of the photoelectric effect.|htm|seniso|2001-09-03 11:33:41|2001-11-25 23:15:50|mmp@msu (Michigan State University)|default
X Rays|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd702.htm|photons,radiation,maximum,diagnostic,diffraction,bremsstrahlung,electromagnetic,wavelength,photon,atomic,xray,xrays,atoms,metal,roentgens,electron,emitted,electrons,voltage,rays,roentgen|current||Introduction to X-rays.|htm|seniso|2001-09-03 11:34:07|2001-11-25 23:20:59|mmp@msu (Michigan State University)|default
Compton Scattering|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd703.htm|scattering,radiation,incident,energy,mass,electromagnetic,wavelength,photon,compton,xray,xrays,electron,ray,electrons,frequency,quantized,kinematic|current||Introduction to, and illustration of, Compton scattering.|htm|seniso|2001-09-03 11:35:05|2001-11-25 23:23:36|mmp@msu (Michigan State University)|default
Matter Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd704.htm|momentum,wavelike,diffract,energy,broglie,waves,wave,wavelength,light,particle,particles,particlelike,electron,electrons|current||Introduction to matter waves and the de Broglie wavelength.|htm|seniso|2001-09-03 11:35:35|2001-11-25 23:25:41|mmp@msu (Michigan State University)|default
Uncertainty Principle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd705.htm|uncertain,uncertainties,momentum,energy,position,hbar,heisenberg,plancks,uncertainty|current||Introduction to the Heisenberg uncertainty principle.|htm|seniso|2001-09-03 11:36:34|2001-11-25 23:46:47|mmp@msu (Michigan State University)|default
Particles and Antiparticles|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd706.htm|photons,antiproton,accelerators,annihilation,antiparticle,momentum,collide,pairs,mass,protons,theory,antiprotons,charge,light,proton,particle,particles,relativity,antiparticles,quantum,electron,annihilate,accelerator,threshold,fundamental,positrons,collisions|current||Properties of particles and antiparticles.|htm|seniso|2001-09-03 11:37:23|2001-11-25 23:48:40|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory, True False Questions|/res/msu/mmp/kap28/cd717.htm|photons,photoelectric,radiation,momentum,energy,black,wavelength,photon,compton,proton,work,xray,body,electron,emitted,velocity,electrons,frequency,spectrum|current||True False Practice for the chapter on quantum theory.|htm|seniso|2001-02-03 13:17:52|2001-11-25 23:50:28|mmp@msu (Michigan State University)|default
Quantum Physics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap28/sum28.htm|scattering,photoelectric,oscillator,maximum,wien,theory,broglie,relations,wavelength,heisenberg,compton,xray,quantization,minumum,harmonic,displacement,electron,critical,voltage,uncertainty|current||Quantum Theory Summary Page.|htm|seniso|2001-11-25 23:51:19|2001-11-25 23:51:19|mmp@msu (Michigan State University)|default
Wavelength of Electron and Photon|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap28/cd704a.htm|photons,kinetic,energy,wavelength,photon,wavelengths,electron,electrons,nonrelativistic|current||Calculation fo the wavelengths of photons and electrons.|htm|seniso|2001-09-03 11:36:12|2001-11-25 23:45:06|mmp@msu (Michigan State University)|default
Origins of Quantum Theory Front page|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Origins of Quantum Theory|/res/msu/mmp/kap28/cd697.htm|origins,theory,quantum|current||Origins of Quantum Theory Front page.|htm|seniso|2001-09-03 11:30:28|2001-11-25 22:14:44|mmp@msu (Michigan State University)|default
Origins of Quantum Theory|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap28/calckap28.sequence||current|||sequence|seniso|2001-04-10 17:36:19|2001-11-28 18:12:56|mmp@msu (Michigan State University)|default
Radius|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd741.problem|nucleus,radius,nucleons|current||Problem:
 Calculation of the radius of a nucleus.|problem|seniso|2001-04-06 10:13:59|2001-11-30 13:18:44|mmp@msu (Michigan State University)|default
Electrostatic Repulsion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd742.problem|protons,coulomb,electrostatic,force,nucleus|current||Problem:
 Calculation of the electrostatic repulsion between two protons.|problem|seniso|2001-04-06 10:14:21|2001-12-03 20:46:56|mmp@msu (Michigan State University)|default
Atomic Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd743.problem|energy,mass,proton,nucleus|current||Problem:
 Calculation of the mass of a fictitious nuclues.|problem|seniso|2001-04-06 10:14:40|2001-12-03 20:49:04|mmp@msu (Michigan State University)|default
Maximum Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd744.problem|kinetic,kev,emitted,nucleus,decay,energy,process|current||Problem:
 Calculation of the max. energy emitted in a beta decay process.|problem|seniso|2001-04-06 10:15:00|2001-12-03 20:49:54|mmp@msu (Michigan State University)|default
Maximum Energy 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd745.problem|energy,kinetic,positron,kev,emitted,nucleus,decay|current||Problem:
 Calculation of the max. energy emitted in a beta decay process.|problem|seniso|2001-04-06 10:15:15|2001-12-03 20:50:31|mmp@msu (Michigan State University)|default
Half Life|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd746.problem|life,half,nuclei|current||Problem:
 Calculation of the amount of material left at time, t.|problem|seniso|2001-04-06 10:15:29|2001-12-03 20:51:11|mmp@msu (Michigan State University)|default
Half Life 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd747.problem|half,nuclei,activity,life,isotope,radioactive,decay|current||Problem:
 Calculation of the half-life of an isotope from a plot of it's activity.|problem|seniso|2001-04-06 10:15:41|2001-12-03 20:52:00|mmp@msu (Michigan State University)|default
Activity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd748.problem|activity,life,half,atoms,radioactive|current||Problem:
 Calculation of the activity of a sample.|problem|seniso|2001-04-06 10:15:58|2001-12-03 20:53:33|mmp@msu (Michigan State University)|default
Decays Per Second|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd749.problem|decays,half,atoms,activity,avogadros|current||Problem:
 Calculation of the decays/second of a radiactive sample.|problem|seniso|2001-04-06 10:16:12|2001-12-03 20:54:34|mmp@msu (Michigan State University)|default
Activity 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/problems/cd750.problem|half,atoms,activity,life,avogadros,radioactive|current||Problem:
 Calculation of the activity of a sample.|problem|seniso|2001-04-06 10:16:27|2001-12-03 20:54:05|mmp@msu (Michigan State University)|default
Subatomic Physics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap30/kap30.sequence||current|||sequence|seniso|2001-04-10 17:33:07|2001-04-11 10:25:49|mmp@msu (Michigan State University)|default
Activity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/picts/lambda_eqn.gif|activity|current||Equation for the activity of a radioactive source.|gif|seniso|2001-11-28 19:21:45|2001-11-28 19:21:45|mmp@msu (Michigan State University)|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/picts/force_eqn0.gif||current||Equation for the repulsive force between two protons in a nucleus.|gif|seniso|2001-11-28 19:32:37|2001-11-28 19:32:37|mmp@msu (Michigan State University)|default
Mean Life|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/picts/tau_eqn.gif||current||Equation for the mean life of an isotope.|gif|seniso|2001-11-28 20:42:11|2001-11-28 20:42:11|mmp@msu (Michigan State University)|default
Time Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/picts/time_eqn.gif||current|||gif|seniso|2001-11-30 12:47:36|2001-11-30 12:47:36|mmp@msu (Michigan State University)|default
Nuclei Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/picts/nuclei_eqn.gif||current||Equation used to calculate the nuumber of nuclei in a radioactive sample.|gif|seniso|2001-11-30 12:53:09|2001-11-30 12:54:05|mmp@msu (Michigan State University)|default
Curie Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Subatomic Physics|/res/msu/mmp/kap30/picts/curie_eqn.gif||current||Equation used to find the number of Ci in a radioactive sample for kap30.|gif|seniso|2001-11-30 12:57:59|2001-11-30 12:57:59|mmp@msu (Michigan State University)|default
Applet: Half-Lifes|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Periodic Table|/res/msu/mmp/kap30/Nuclear/nuc.htm||current|||htm|seniso|2001-12-09 15:57:57|2001-12-09 15:57:57|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Subatomic Physics|/res/msu/mmp/kap30/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd732.htm|element,masses,energy,fermi,protons,proton,neutron,femtometer,einsteins,radii,nuclei,ro,atom,stable,nucleons,mass,isotones,atomic,neutrons,isotopes,nucleus|current||Introduction to the chapter on nuclear physics.|htm|seniso|2001-08-29 11:45:11|2001-11-28 19:25:23|mmp@msu (Michigan State University)|default
The Nuclear Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd733.htm|forces,energy,protons,electromagnetic,interact,force,nucleon,nucleons,nuclear,neutrons,particle,particles,weight,binding,nucleus|current||Properties of the nuclear force.|htm|seniso|2001-08-29 11:47:58|2001-11-28 19:35:44|mmp@msu (Michigan State University)|default
Stability of Nuclei|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd734.htm|masses,saturation,protons,carbon,repulsion,proton,neutron,neutral,excess,force,nuclei,atom,nucleon,hydrogen,mass,fission,nuclear,neutrons,electrically,stability,electron,nucleus|current||Explanation of the stability of atomic nuclei.|htm|seniso|2001-08-29 11:48:48|2001-11-28 19:46:07|mmp@msu (Michigan State University)|default
Radioactivity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd735.htm|photons,momentum,beta,emission,nuclei,penetrating,electrons,spontaneously,penetrate,penetration,radiation,nucleon,alpha,radioactivity,particles,helium,exponentially,emitted,rays,gamma,decay|current||Introduction to radioactivity for introductory physics.  Includes an illustration
 of alpha, gamma and beta particles.|htm|seniso|2001-08-29 11:50:22|2001-11-28 19:15:21|mmp@msu (Michigan State University)|default
Alpha Decay|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd736.htm|protons,energies,nuclei,detectors,particle,masses,momentum,energy,alpha,nucleons,particles,kinetic,mass,americium,nucleus,decay,excitation,conservation,isotope|current||Explanation of an alpha decay process. |htm|seniso|2001-08-29 11:51:06|2001-12-09 15:56:41|mmp@msu (Michigan State University)|default
Beta Decay|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd737.htm|antiparticle,mev,momentum,beta,nucleons,energy,mass,capture,decays,antilepton,antielectron,conserved,energies,antineutrino,emission,neutron,positron,leptons,particles,lepton,electron,radioactive,neutrino,nucleus,decay|current||Explanantion of a beta decay process.|htm|seniso|2001-08-29 11:52:06|2001-12-09 15:56:57|mmp@msu (Michigan State University)|default
Gamma Decay|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd738.htm|protons,energies,nuclei,atom,state,emitted,gamma,photons,mev,line,energy,lines,electrons,balmer,transition,nucleons,nuclear,photon,transitions,rays,states,nucleon,hydrogen,spectral,light,levels,nucleus,decay,discrete,decays,ray,ev,neutrons,radioactive|current||Explanantion of a gamma decay process.|htm|seniso|2001-08-29 11:53:05|2001-12-09 15:57:11|mmp@msu (Michigan State University)|default
Mean Life|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd739.htm|decays,nuclei,fluctuations,life,exponential,radioactive,nucleus,mean,decay|current||Explanation of mean life of a particle.  Includes a plot of the exponential 
 decay.|htm|seniso|2001-08-29 11:54:13|2001-11-28 20:35:41|mmp@msu (Michigan State University)|default
Half Life|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd7391.htm|line,curie,decays,half,nuclei,bq,ci,activity,life,disintegration,disintegrations,exponential,bequerel,radioactive|current||Explanation of half-life, activity of a sample, and the units bequerel and curie.  
 Includes a radioactive decay plot.|htm|seniso|2001-08-29 11:54:51|2001-11-28 20:33:27|mmp@msu (Michigan State University)|default
Half Life Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd739a.htm|nuclei,life,half,isotope,mean|current||Calculation of the mean life of a sample.|htm|seniso|2001-08-29 11:55:30|2001-11-30 12:49:19|mmp@msu (Michigan State University)|default
Application: Technetium Decay|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd740tch.htm|bones,diagnostic,protons,blood,human,stable,patient,emits,halflife,solution,injected,gamma,decay,photons,energy,decays,gammaray,picture,body,technetium,photon,neutrons,camera,patients,image,isotope|current||Applications of the decay process of Technetium.|htm|seniso|2001-08-29 11:56:26|2001-11-30 13:06:49|mmp@msu (Michigan State University)|default
Example - Activity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd740.htm|nuclei,source,activity,life,decays,half,curies|current||Example calculating the activity of a radioactive source.|htm|seniso|2001-08-29 11:56:01|2001-11-30 13:06:00|mmp@msu (Michigan State University)|default
Fission|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd894b.htm|uranium,heat,mev,trigger,energy,liese,chemical,decays,energies,neutron,atoms,chernobyl,fragments,benzene,molecules,triggered,nuclei,electrical,absorption,otto,electronic,atom,reactors,absorbers,kinetic,energetically,fission,ev,nuclear,power,meitner,neutrons,reactor,explosions,electron,isotope,nucleus,hahn,decay|current||Introduction the principles of fission reactions.|htm|seniso|2001-08-29 11:58:11|2001-12-03 20:44:36|mmp@msu (Michigan State University)|default
Fission Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd894c.htm|plutonium,energy,chemical,weapons,nuclei,kiloton,kinetic,fission,reactions,nuclear,neutrons,reactor,bomb|current||Explanation of the energy of fission reactions.|htm|seniso|2001-08-29 12:00:30|2001-12-03 20:43:18|mmp@msu (Michigan State University)|default
Fusion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd894d.htm|thermal,atom,temperatures,mev,bethe,hydrogen,flare,energy,protons,reactions,nuclear,energies,fusion,photon,proton,neutron,reactor,positron,solar,nasa,deuteron,helium,electron,nuclei,isotope,radioactive,stars,neutrino,binding|current||Introduction to fusion reactions.|htm|seniso|2001-08-29 12:01:24|2001-11-30 13:10:53|mmp@msu (Michigan State University)|default
Origin of Elements|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd894e.htm|star,uranium,energy,fusion,dwarf,expansion,bang,neutron,cosmological,expanding,white,galaxies,cosmology,lines,nuclei,supernova,stars,furnaces,hubble,hydrogen,spectral,planet,nuclear,wave,light,redshift,observations,astronomical,iron,helium,explosion|current||Explanation of the origin of the elements.|htm|seniso|2001-08-29 12:03:17|2001-11-28 19:26:20|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics, True False Questions|/res/msu/mmp/kap30/cd751.htm|neutrinos,halflives,nuclei,particle,emitted,gamma,decay,photons,beta,decays,sources,atoms,electrons,alpha,nuclear,neutrons,particles,isotopes,radioactive,rays|current||True False Practice for the chapter on subatomic physics.|htm|seniso|2001-02-03 13:18:32|2001-11-30 13:07:44|mmp@msu (Michigan State University)|default
Nuclear Physics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap30/sum30.htm|becquerel,proton,activity,life,mass,atomic,decay,half,neutron,mean|current||Subatomic Physics Summary Page|htm|seniso|2001-08-29 12:04:28|2001-11-30 13:12:49|mmp@msu (Michigan State University)|default
Chapter Frontpage|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap30/cd731.htm|nuclear,physics|current||Chapter frontpage for nuclear physics.|htm|seniso|2001-08-29 11:44:37|2001-11-28 19:14:51|mmp@msu (Michigan State University)|default
Subatomic Physics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap30/calckap30.sequence||current|||sequence|seniso|2001-04-10 17:33:07|2001-11-28 18:18:07|mmp@msu (Michigan State University)|default
Practice Exams|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap33/kap33.sequence||current|||sequence|seniso|2001-09-24 11:23:57|2001-09-24 11:23:57|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Practice Exams|/res/msu/mmp/kap33/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Practice Exams|/res/msu/mmp/kap33/exams.htm||current|||htm|seniso|2001-09-24 11:24:07|2001-12-06 14:30:18|mmp@msu (Michigan State University)|default
Practice Exams|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap33/calckap33.sequence||current|||sequence|seniso|2001-09-24 11:23:57|2001-11-28 18:18:24|mmp@msu (Michigan State University)|default
Calculus Primer|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/calculus/calc.htm|calculus,derivative,differential,differentiation,tan,tangent|current||Calculus primer|htm|seniso|2001-08-27 22:58:56|2002-08-30 11:03:16|mmp@msu (Michigan State University)|default
Help Appendix| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap17/kap17.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Help Appendix|/res/msu/mmp/kap17/vector/vector.htm|angle,vectors,vector,vektorprodukt|current|||htm|seniso|2001-09-05 15:09:15|2001-09-05 15:09:15|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Help Appendix|/res/msu/mmp/kap17/scalar/scalar.htm|length,applet,area,scalar,skalarprodukt,projection|current|||htm|seniso|2001-09-05 15:08:35|2001-09-05 15:08:35|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Help Appendix|/res/msu/mmp/kap17/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Powers of Ten|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd429.htm|micro,pico,hecto,centi,mega,tera,deca,yocto,zepto,deci,nano,yotta,giga,peta,kilo,milli,atto,zetta,femto|current||Common prefixes for powers of ten|htm|seniso|2001-08-29 16:51:40|2001-12-04 22:24:47|mmp@msu (Michigan State University)|default
Unit Conversion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd430.htm|megaton,kg,gal,energy,unit,length,lightyear,kmh,force,pressure,atm,cm,cal,btu,ev,power,ft,mpa,volume,conversion,hp,kwh,velocity,units|current|||htm|seniso|2001-09-05 15:03:27|2001-09-05 15:03:27|mmp@msu (Michigan State University)|default
Calculating with Powers|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd431.htm|powers,power|current|||htm|seniso|2001-09-05 15:04:22|2001-09-05 15:04:22|mmp@msu (Michigan State University)|default
Scalars and Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd432.htm|speed,temperature,force,mileshour,displacement,velocity|current|||htm|seniso|2001-09-05 15:04:41|2001-09-05 15:04:41|mmp@msu (Michigan State University)|default
Scalar and Vector Products|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd433.htm|magnitude,vectors,vector,crossproduct,perpendicular,scalar|current|||htm|seniso|2001-09-05 15:05:15|2001-09-05 15:05:15|mmp@msu (Michigan State University)|default
Unit Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd434.htm|products,orthonormal,unit,length,coordinate,vectors,vector,cartesian,orthogonal,scalar|current|||htm|seniso|2001-09-05 15:05:43|2001-09-05 15:05:43|mmp@msu (Michigan State University)|default
Trigonometry Review|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd435.htm|pythogoras,trigonometry|current||Trigonometry review|htm|seniso|2001-08-23 13:39:47|2002-08-19 10:15:18|mmp@msu (Michigan State University)|default
Calculus Review 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd436.htm|calculus,chain,derivative,exponential,logarithm,polynomial|current|||htm|seniso|2001-09-05 15:07:21|2002-08-19 10:25:27|mmp@msu (Michigan State University)|default
Calculus Review 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/cd437.htm|calculus,derivative,functions,integral,integrals,integration|current||Calculus review focusing on integration|htm|seniso|2001-08-27 22:00:37|2002-08-19 10:27:11|mmp@msu (Michigan State University)|default
Elementary Geometry|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Help Appendix|/res/msu/mmp/kap17/geometry.htm|circle,cylinder,height,geometry,radius,circumference,area,sphere,rectangle,volume,surface,square,sides|current|||htm|seniso|2001-09-05 15:07:49|2001-09-05 15:07:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Help Appendix|/res/msu/mmp/kap17/cd437a.htm|impurities,forces,electricity,force,electrons,electric,insulators,dielectric|current|||htm|seniso|2001-09-05 15:06:29|2001-09-05 15:06:29|mmp@msu (Michigan State University)|default
Help Appendix Page|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Help Appendix|/res/msu/mmp/kap17/cd428.htm|appendix|current||Help Appendix frontpage|htm|seniso|2001-08-29 16:49:58|2001-12-04 22:24:23|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Help Appendix|/res/msu/mmp/kap17/cd433.jpg||current||Illustration of the right hand rule.|jpg|seniso|2001-12-04 22:25:06|2001-12-04 22:25:06|mmp@msu (Michigan State University)|default
Help Appendix|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap17/calckap17.sequence||current|||sequence|seniso|2001-11-28 18:07:53|2001-11-28 18:07:53|mmp@msu (Michigan State University)|default
Data Appendix| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap16/kap16.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Data Appendix|/res/msu/mmp/kap16/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Physical Constants|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Data Appendix|/res/msu/mmp/kap16/cd422.htm|planks,magneton,boltzmanns,gravitational,speed,permittivity,bohr,magnetic,flux,avogadros,permeability,quantum,rydberg|current||Table of physical constants.|htm|seniso|2001-12-04 22:18:20|2001-12-04 22:18:20|mmp@msu (Michigan State University)|default
Subatomic Constants|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Data Appendix|/res/msu/mmp/kap16/Constants.htm|unit,wavelength,want,proton,speed,subatomic,angstrom,bohr,electronvolt,electron|current|||htm|seniso|2001-08-25 14:01:22|2001-08-25 14:01:22|mmp@msu (Michigan State University)|default
Astronomical Data|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Data Appendix|/res/msu/mmp/kap16/cd423.htm|period,gravity,revolution,radius,earth,orbit,mass,astronomical,rotation,data|current||Table of astronomical data.|htm|seniso|2001-12-04 22:19:37|2001-12-04 22:19:37|mmp@msu (Michigan State University)|default
Planetary Data|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Data Appendix|/res/msu/mmp/kap16/cd424.htm|planetary,rorbit,massme,radiuskm,data|current||Table of planetary data.|htm|seniso|2001-12-04 22:20:23|2001-12-04 22:20:23|mmp@msu (Michigan State University)|default
Specific Heats|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Data Appendix|/res/msu/mmp/kap16/cd425.htm|room,seawater,calorie,pressure,specific,air,alcohol,kcalkg,heats|current||Table of specific heats of some materials.|htm|seniso|2001-12-04 22:21:24|2001-12-04 22:21:24|mmp@msu (Michigan State University)|default
Latent Heats|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Data Appendix|/res/msu/mmp/kap16/cd426.htm|temperatures,boiling,melting,pressure,phase,latent,heats|current||Table of latent heats and phase change temperature for some materials.|htm|seniso|2001-12-04 22:22:06|2001-12-04 22:22:06|mmp@msu (Michigan State University)|default
Thermal Conductivities|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Data Appendix|/res/msu/mmp/kap16/cd427.htm|conductivities|current||Table of Thermal Conductivities of some Materials.|htm|seniso|2001-12-04 22:23:24|2001-12-04 22:23:24|mmp@msu (Michigan State University)|default
Stable Isotopes| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Periodic Table|/res/msu/mmp/kap16/Stable.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Data Appendix|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap16/calckap16.sequence||current|||sequence|seniso|2001-11-28 18:07:35|2001-11-28 18:07:35|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Summaries|/res/msu/mmp/summary/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Summaries| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/summary/summary.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Unit Conversion| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/conversions/conversions.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
SI Base Units| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/sibaseunits.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Metric Prefixes| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/prefixes.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Length| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_length.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Area| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_area.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Volume| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_volume.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Angle| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_angle.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Time| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_time.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Mass| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_mass.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Temperature| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_temperature.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Velocity| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_velocity.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Energy| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_energy.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Pressure| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_pressure.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Power| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Unit Conversion|/res/msu/mmp/conversions/conv_power.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Welcome, |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, |/res/msu/mmp/welcome267.htm|course,home,topics,benenson,computers|current|||htm|seniso|2001-01-30 17:10:06|2001-06-06 14:19:08|mmp@msu, mmp@msu (Michigan State University)|default
Error Analysis Post-Quiz|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Physics|/res/msu/mmp/labquiz/problems/quiz1part1.problem|Error,distance,accelerates|current||Contains two answer boxes.|problem|seniso|2001-01-15 17:52:08|2002-01-12 14:25:45|mmp@msu (Michigan State University)|default
Quiz 3 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz3part1.problem|error,ohms,circuit,voltage,resistor|current|||problem|seniso|2001-01-15 17:54:34|2001-02-01 17:32:16|mmp@msu (Michigan State University)|default
Quiz 12 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz12part2.problem||current|||problem|seniso|2001-03-22 15:05:40|2001-03-23 12:36:17|mmp@msu (Michigan State University)|default
Quiz 11 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz11part2.problem||current|||problem|seniso|2001-03-22 15:05:20|2001-03-23 12:36:00|mmp@msu (Michigan State University)|default
Quiz 6 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz6part2.problem||current|||problem|seniso|2001-02-02 17:55:06|2001-02-02 17:55:06|mmp@msu (Michigan State University)|default
Quiz 5 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz5part2.problem||current|||problem|seniso|2001-02-02 17:28:26|2001-02-02 17:28:26|mmp@msu (Michigan State University)|default
Quiz 2 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz2part1.problem|ohms,capacitance,resistance,circuit|current|||problem|seniso|2001-01-15 17:53:35|2001-01-24 15:57:41|mmp@msu (Michigan State University)|default
Quiz 3 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz3part2.problem|energy,temperature,mass,power,voltage,electrical|current|||problem|seniso|2001-01-15 17:55:01|2001-02-01 17:35:23|mmp@msu (Michigan State University)|default
Quiz 9 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz9part1.problem|orientation,distance,image,focal,magnification|current|||problem|seniso|2001-02-20 18:36:34|2001-03-26 15:23:46|mmp@msu (Michigan State University)|default
Quiz 10 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz10part1.problem||current|||problem|seniso|2001-03-22 15:04:50|2001-03-23 12:35:36|mmp@msu (Michigan State University)|default
Quiz 2 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz2part2.problem|ohms,heated,resistance,circuit,ir,voltage,resistor|current|||problem|seniso|2001-01-15 17:54:05|2001-01-29 11:00:02|mmp@msu (Michigan State University)|default
Quiz 8 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz8part2.problem||current|||problem|seniso|2001-02-20 18:36:24|2001-02-20 18:36:24|mmp@msu (Michigan State University)|default
Quiz 7 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz7part2.problem||current|||problem|seniso|2001-02-20 18:35:59|2001-02-20 18:35:59|mmp@msu (Michigan State University)|default
Quiz 6 part 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz6part3.problem|direction,dc,statements,voltage|current|||problem|seniso|2001-02-02 17:39:08|2001-02-02 17:39:08|mmp@msu (Michigan State University)|default
Quiz 1 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz1part2.problem|capacitors,charges,rate,charge,half,halflife,capacity,capacitor,plates,voltage|current|||problem|seniso|2001-01-15 17:53:07|2001-01-25 14:43:04|mmp@msu (Michigan State University)|default
Quiz 4 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz4part1.problem||current|||problem|seniso|2001-01-24 14:22:19|2001-01-24 15:58:02|mmp@msu (Michigan State University)|default
Quiz 10 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz10part2.problem||current|||problem|seniso|2001-03-22 15:05:01|2001-03-23 12:35:45|mmp@msu (Michigan State University)|default
Optical Instruments Pre-Quiz|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz9part2.problem|experiment,distance,instruments,lens,virtual,image,focal,optical,magnification,inverted|current|||problem|seniso|2001-02-20 18:36:45|2002-01-14 14:46:26|mmp@msu (Michigan State University)|default
Quiz 4 part 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz4part2.problem||current|||problem|seniso|2001-01-24 14:22:32|2001-01-24 14:22:32|mmp@msu (Michigan State University)|default
Quiz 8 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz8part1.problem||current|||problem|seniso|2001-02-20 18:36:13|2001-02-20 18:36:13|mmp@msu (Michigan State University)|default
Quiz 7 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz7part1.problem||current|||problem|seniso|2001-02-20 18:35:45|2001-02-20 18:35:45|mmp@msu (Michigan State University)|default
Quiz 5 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz5part1.problem||current|||problem|seniso|2001-02-02 17:28:09|2001-02-02 17:28:09|mmp@msu (Michigan State University)|default
Quiz 12 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz12part1.problem||current|||problem|seniso|2001-03-22 15:05:30|2001-03-23 12:36:08|mmp@msu (Michigan State University)|default
Quiz 6 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz6part1.problem||current|||problem|seniso|2001-02-02 17:55:20|2001-02-02 17:55:20|mmp@msu (Michigan State University)|default
Quiz 11 part 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz11part1.problem||current|||problem|seniso|2001-03-22 15:05:10|2001-03-23 12:35:53|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz13part1.problem||current|||problem|seniso|2001-04-23 14:10:05|2001-04-23 14:10:05|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/quiz13part2.problem||current|||problem|seniso|2001-04-23 14:10:18|2001-04-23 14:10:18|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen) |Lab Quizzes|/res/msu/mmp/labquiz/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Lab Quizzes|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Physics|/res/msu/mmp/labquiz/labquiz.sequence||current|LBS272L lab quiz sequence||sequence|seniso|2001-04-23 13:41:58|2002-01-23 15:32:16|mmp@msu (Michigan State University)|default
Lab Quizzes|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|LBS267L Lab Quizzes|/res/msu/mmp/labquiz/newclass.html|quiz,lab,quizzes,weeks|current|||html|seniso|2001-01-15 18:00:00|2001-01-22 16:31:24|mmp@msu (Michigan State University)|default
LBS 271L Welcome Page|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/welcomelab.html|lab|current|||html|seniso|2001-09-03 10:59:46|2002-01-23 15:33:43|mmp@msu (Michigan State University)|default
Zero acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap14/picts/soundintro.gif||current|||gif|seniso|2001-07-25 15:23:36|2001-07-25 15:56:22|mmp@msu|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/velocity_eqn.gif|velocity,wave, string, tension|current||Equation for the velocity of a wave on a string.|gif|seniso|2001-11-27 22:12:50|2001-11-27 22:12:50|mmp@msu (Michigan State University)|default
Velocity Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/velocity_eqn2.gif|velocity,modulus|current||Equations for the velocity of a wave in a solid and a fluid, respectively.|gif|seniso|2001-11-27 22:17:22|2001-11-27 22:17:22|mmp@msu (Michigan State University)|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/velocity_eqn3.gif|speed,sound, mercury, bulk modulus|current||Equation for the speed of sound in mercury.|gif|seniso|2001-11-27 22:26:21|2001-11-27 22:26:21|mmp@msu (Michigan State University)|default
Time Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/time_eqn.gif|time,speed, sound, distance|current||Equation for the time delay for the speed of sound.|gif|seniso|2001-11-27 22:30:21|2001-11-27 22:30:21|mmp@msu (Michigan State University)|default
Fundamental Frequency Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/frequency_eqn.gif|fundamental,frequency, wave|current||Equation for the fundamental frequency of a wave.|gif|seniso|2001-11-27 22:37:16|2001-11-27 22:37:16|mmp@msu (Michigan State University)|default
Ratio|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/ratio_eqn.gif||current||Equation for the ratio of the intensity vs. radius for sound.|gif|seniso|2001-11-27 22:48:35|2001-11-27 22:48:35|mmp@msu (Michigan State University)|default
Intensity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/intensity_eqn.gif||current|||gif|seniso|2001-11-27 23:05:31|2001-11-27 23:05:31|mmp@msu (Michigan State University)|default
Wavelength Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/wavelength_eqn.gif|wavelength,sound, velocity, frequency|current||Equation for the wavelength of sound.|gif|seniso|2001-11-27 23:09:32|2001-11-27 23:09:32|mmp@msu (Michigan State University)|default
Frequency Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/frequency_eqn2.gif||current||Equations calculating the wavelength and frequency of a closed organ pipe.
 (page cd412.)|gif|seniso|2001-11-28 00:04:04|2001-11-28 00:06:11|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Length Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/length_eqn.gif||current||Equations for calculating the wavelength and length of an open pipe with
 frequency 30.3 Hz (from cd412.htm).|gif|seniso|2001-11-28 00:10:32|2001-11-28 00:10:32|mmp@msu (Michigan State University)|default
Doppler Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/doppler_eqn.gif||current||General case equation for the Doppler effect.|gif|seniso|2001-11-28 00:28:20|2001-11-28 00:28:20|mmp@msu (Michigan State University)|default
Doppler Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/doppler_eqn2.gif|doppler,observed frequency|current||Equation for calculating the observed frequency in a Doppler effect problem.|gif|seniso|2001-11-28 00:34:12|2001-11-28 00:34:12|mmp@msu (Michigan State University)|default
Doppler Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/doppler_eqn3.gif|doppler,effect, observed frequency, velocity|current||Equation for calculating the observed frequency in a Doppler effect problem.|gif|seniso|2001-11-28 00:41:05|2001-11-28 00:41:05|mmp@msu (Michigan State University)|default
Closed Pipe Equations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/closed_eqn.gif||current||Equations for the wavelength and frequency of a closed pipe.|gif|seniso|2001-11-28 00:55:09|2001-11-28 00:55:09|mmp@msu (Michigan State University)|default
Doppler Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/doppler_eqn0.gif||current||General equation for the doppler effect.|gif|seniso|2001-11-28 18:38:52|2001-11-28 18:38:52|mmp@msu (Michigan State University)|default
Doppler Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/dopplerplus_eqn.gif||current||Doppler effect equation which both the observer and source are moving.|gif|seniso|2001-11-28 18:53:27|2001-11-28 18:53:27|mmp@msu (Michigan State University)|default
Beta Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/beta_eqn.gif||current|||gif|seniso|2001-11-28 18:59:26|2001-11-28 18:59:26|mmp@msu (Michigan State University)|default
Intensity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/picts/intensity_eqn0.gif||current|||gif|seniso|2001-11-28 19:04:24|2001-11-28 19:04:24|mmp@msu (Michigan State University)|default
Demo: Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/demo/cd394.htm|demo,oscilloscope,microphone,pressure,video,sinusoidal,waves,wave,sound|current||Demo showing the sinusiodal form of a pressure wave.|htm|seniso|2001-08-25 13:46:56|2001-11-28 18:29:03|mmp@msu (Michigan State University)|default
Demo: Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Sound|/res/msu/mmp/kap14/demo/cd406.htm|oscilloscope,xylophone,microphone,beats,beating,video,sinusoidal,hz|current|||htm|seniso|2001-08-25 13:48:05|2001-08-25 13:48:05|mmp@msu (Michigan State University)|default
Demo: Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/demo/cd407.htm|doppler,honking,car,video,velocity,frequency|current|||htm|seniso|2001-08-25 13:48:59|2001-08-25 13:48:59|mmp@msu (Michigan State University)|default
Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd404.htm|rarefaction,sinusoidal,waves,wave,sound,interference,condensation|current||Explanation and illustrations of the interference of sound.|htm|seniso|2001-08-25 13:25:32|2001-11-28 01:14:16|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Sound|/res/msu/mmp/kap14/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap14/kap14.sequence||current|||sequence|seniso|2001-08-25 13:46:13|2001-08-25 13:46:13|mmp@msu (Michigan State University)|default
Introduction |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd393.htm|strings,sonar,motion,ultrasound,transverse,pressure,propagation,longitudinal,waves,wave,light,density,sound,string,perturbation|current||Introduction to the sound waves.|htm|seniso|2001-07-25 15:55:34|2001-11-28 01:02:20|mmp@msu (Michigan State University)|default
Pressure Waves |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound |/res/msu/mmp/kap14/cd394.htm|frequencies,rarefactions,motion,molecule,force,pressure,threshold,sine,longitudinal,sinusoidal,elastic,waves,wave,density,compressions,sound,ear,harmonic,compression,medium,intensity,velocity|current||Introduction to pressure waves. Includes a demonstration on sinusiodal pressure waves.|htm|seniso|2001-07-25 15:58:01|2001-11-28 01:03:55|mmp@msu (Michigan State University)|default
Speed of Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd395.htm|youngs,solid,speed,temperature,force,modulus,fluid,waves,wave,light,sound,string,air|current||Introduction to, and demonstration of, the speed of sound.   |htm|seniso|2001-08-25 13:17:50|2001-11-27 22:20:28|mmp@msu (Michigan State University)|default
Examples: Speed of Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd396.htm|delay,speed,modulus,bulk,density,sound|current||Examples using the concepts of the speed of sound.|htm|seniso|2001-08-25 13:19:37|2001-11-27 22:32:59|mmp@msu (Michigan State University)|default
Example: Fundamental Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd397.htm|wavelength,speed,fundamental,node,compressional,wave,sound,antinodes,hz,frequency|current||Example calculating the fundamental frequency of a stading wave.|htm|seniso|2001-08-25 13:20:01|2001-11-27 22:39:05|mmp@msu (Michigan State University)|default
Sound Intensity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd398.htm|sounds,energy,wavelength,radii,pressure,absorption,source,amplitude,concentric,rate,radiates,power,wave,sound,intensity,emitted,frequency|current||Introduction to sound intensity.|htm|seniso|2001-07-25 16:11:56|2001-11-27 22:50:33|mmp@msu (Michigan State University)|default
Bels and Decibels|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd399.htm|decibel,logarithmic,pressure,logarithm,threshold,logx,decibels,vibrate,source,log,amplitude,bell,bels,intensities,bel,waves,sound,intensity,relative|current||Explanation of the units of Bels and deciBels and absolute threshold of hearing.
 Includes a review of the uses of log x.|htm|seniso|2001-08-25 13:21:28|2001-11-28 01:06:25|mmp@msu (Michigan State University)|default
Human Hearing|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd400.htm|frequencies,dependent,human,threshold,db,age,sound,volume,loudness,intensity,frequency|current||Explanation of the human ear's very frequency dependent response to sound as
 being very age dependent.  Includes a graph of the hearing threshold of humans 
 for various ages.|htm|seniso|2001-08-25 13:22:49|2001-11-28 01:09:09|mmp@msu (Michigan State University)|default
Absolute Intensity Level|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd401.htm|threshold,db,average,sound,intensity|current||Examples using the concepts of the absolute intensity level. Includes a table
 of typical values of beta (dB) in terms of W/m^2 and the sound level.|htm|seniso|2001-08-25 13:23:28|2001-11-28 19:07:06|mmp@msu (Michigan State University)|default
Relative Intensity Level|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd402.htm|signals,threshold,db,intensities,level,signal,sound,music,intensity,levels,relative|current||Explanation of the relative intensity level of two sounds.|htm|seniso|2001-08-25 13:24:08|2001-11-28 01:12:08|mmp@msu (Michigan State University)|default
Wavelength of Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd403.htm|frequencies,diffraction,sounds,electromagnetic,wavelength,temperature,wave,sound,music,hz|current||Equations and example for the wavelength of sound.|htm|seniso|2001-08-25 13:24:52|2001-11-28 01:13:10|mmp@msu (Michigan State University)|default
Destructive Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd405.htm|frequencies,length,destructive,sources,waves,wave,sound,interference,hz,frequency|current||Explanantion and example of destructive interference of sound.|htm|seniso|2001-08-25 13:26:07|2001-11-28 01:15:12|mmp@msu (Michigan State University)|default
Beats|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd406.htm|frequencies,amplitude,waves,beats,frequency|current||Explanation and demo. of the phenomenon of beats -- where two sound waves have frequencies 
 that are very close.  |htm|seniso|2001-08-25 13:26:55|2001-11-28 17:47:38|mmp@msu (Michigan State University)|default
Doppler Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd407.htm|motion,distance,doppler,effect,source,stationary,wave,compressions,sound,observer,velocity,frequency|current||Introduction to, and demonstration of, the Doppler effect.|htm|seniso|2001-08-25 13:27:26|2001-11-28 01:17:46|mmp@msu (Michigan State University)|default
Doppler Effect - General Case|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd408.htm|doppler,speed,effect,source,velocities,sound,observer,velocity,frequency|current||General equations for the Doppler effect.|htm|seniso|2001-08-25 13:28:11|2001-11-28 18:55:15|mmp@msu (Michigan State University)|default
Example: Doppler Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd409.htm|toward,doppler,speed,effect,moving,stationary,echo,sound,hz,observed,observer,velocity,frequency|current||Examples using the concepts of the Doppler effect.|htm|seniso|2001-08-25 13:28:46|2001-11-28 01:18:35|mmp@msu (Michigan State University)|default
Application: Doppler Radar|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd409a.htm|tornados,electromagnetic,thunderstorms,storm,doppler,monitoring,object,storms,speed,satellite,thunderstorm,reflected,application,radiation,applications,transmitter,waves,weather,radar,emitted,velocity,frequency|current||Application of a Doppler radar.|htm|seniso|2001-08-25 13:29:22|2001-11-28 01:20:03|mmp@msu (Michigan State University)|default
Sonic Boom|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd410.htm|boom,angle,speeds,noise,speed,source,sonic,waves,wave,sound,velocity,frequency,shock|current||Introduction to a sonic boom for introductory physics.|htm|seniso|2001-08-25 13:30:50|2001-11-28 01:20:51|mmp@msu (Michigan State University)|default
Tones|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd412a.htm|frequencies,keys,human,tonal,tenor,piano,tone,soprano,halftones,musical,bach,tones,bass,baritone,note,sound,notes,key,alto,hz,frequency,intervals,wohltemperierte|current||Discussion of what frequencies make up musical tones.|htm|seniso|2001-08-25 13:33:12|2001-11-28 17:44:12|mmp@msu (Michigan State University)|default
Open and Closed Pipes|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd411.htm|strings,pipe,natural,frequencies,integer,length,wavelength,speed,fundamental,node,pipes,harmonics,waves,sound,string,antinodes,frequency|current||Explanation of the concepts of open and closed pipes.|htm|seniso|2001-08-25 13:31:26|2001-11-28 00:57:59|mmp@msu (Michigan State University)|default
Examples: Closed and Open Pipes|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd412.htm|pipe,speed,fundamental,beats,pipes,organ,sound,hz,frequency|current||Examples using the concepts of closed and open pipes.|htm|seniso|2001-08-25 13:32:43|2001-11-28 01:22:02|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd419.htm|pipe,decibel,doppler,transverse,speed,effect,temperature,fundamental,source,intensities,waves,wave,density,sound,intensity,observer,velocity,frequency|current||True False Practice for the chapter on sound.|htm|seniso|2001-07-25 16:12:13|2001-11-28 01:00:24|mmp@msu (Michigan State University)|default
Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap14/sum14.htm|pipe,source,frequencies,db,ratios,velocities,wave,wavelength,doppler,organ,sound,air,summary,intensity,observer,velocity,beats,absolute|current||Sound summary page.|htm|seniso|2001-08-25 13:36:31|2001-11-28 17:49:15|mmp@msu (Michigan State University)|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd413.problem|distance,proportional,intensities,power,sound,intensity|current||Problem:
 Calculation of the distance from a source.|problem|seniso|2001-08-25 13:37:14|2001-11-28 17:49:56|mmp@msu|default
Smallest Path Difference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd414.problem|length,destructive,wavelength,waves,sound,destructively,interference,interfere,hz,frequency|current||Problem:
 Calculation of smallest length distance between two sound waves to get destructive 
 interference.|problem|seniso|2001-08-25 13:37:39|2001-11-28 17:50:47|mmp@msu|default
Magnitude|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd415.problem|sounds,db,intensities,intensity|current||Problem:
 Calculation of the magnitude of the difference between two sounds intensities.|problem|seniso|2001-08-25 13:38:10|2001-11-28 17:52:29|mmp@msu|default
Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd416.problem|doppler,effect,source,sound,hz,observed,velocity,frequency|current||Problem:
 Calculation of the speed of a car using the Doppler effect.|problem|seniso|2001-08-25 13:38:42|2001-11-28 17:54:06|mmp@msu|default
Resonant Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd417.problem|pipe,resonant,length,temperature,velocities,organ,hz,frequency|current||Problem:
 Calculation of the next higher resonant frequency of a closed organ pipe.|problem|seniso|2001-08-25 13:39:11|2001-11-28 18:24:08|mmp@msu|default
Pain Threshold|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd418.problem|decibel,bands,rock,threshold,rockbands,db,pain,sound,intensity|current||Problem:
 Calculation of the level of the pain threshold of hearing.|problem|seniso|2001-08-25 13:39:44|2002-01-15 11:31:19|mmp@msu|default
Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd418a.problem|vibration,length,youngs,wavelength,fundamental,modulus,longitudinal,wave,density,sound,velocity,frequency|current||Problem:
 Calculation of the frequency of sound produced in an Aluminum rod.|problem|seniso|2001-08-25 13:40:30|2001-11-28 18:26:17|mmp@msu|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd418b.problem|sounds,distance,youngs,speed,modulus,density,sound,velocity|current||Problem:
 Calculation of the distance apart of two people hearing an approaching train.|problem|seniso|2001-08-25 13:41:08|2001-11-28 18:27:58|mmp@msu|default
Amplitude|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd418c.problem|pressure,amplitude,power,wave,speakers,intensity|current||Problem:
 Calculation of the amplitude of the pressure wave.|problem|seniso|2001-08-25 13:41:52|2001-11-28 18:19:59|mmp@msu|default
Density|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd418d.problem|temperature,pressure,modulus,bulk,density,sound,underadiabatic,velocity|current||Problem:
 Calculation of the density of air at some temperature, t.|problem|seniso|2001-08-25 13:42:24|2001-11-28 18:18:56|mmp@msu|default
Length|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd418e.problem|pipe,fork,length,fundamental,beats,organ,beat,velocity,frequency|current||Problem:
 Calculation of the length of the shortest organ pipe.|problem|seniso|2001-08-25 13:42:55|2001-11-28 17:55:48|mmp@msu|default
Temperature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/problems/cd418f.problem|degrees,temperature,sound,celsius,velocity|current||Problem:
 Calculation of the temperature of air.|problem|seniso|2001-08-25 13:43:42|2001-11-28 17:54:59|mmp@msu|default
Chapter Front Page, Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd392.htm|sound|current||Chapter frontpage for sound.|htm|seniso|2001-08-25 13:14:33|2001-11-28 01:01:08|mmp@msu (Michigan State University)|default
Sound Demo|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/kap14/cd395a.htm|speed,video,light,sound|current||Demonstration of the concepts of the speed of sound.|htm|seniso|2001-08-25 13:18:37|2001-11-27 22:22:29|mmp@msu (Michigan State University)|default
Sound|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap14/calckap14.sequence||current|||sequence|seniso|2001-08-25 13:46:13|2002-01-09 03:38:23|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Summaries|/res/msu/mmp/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd001h.htm|distance,average|current|||htm|seniso|2001-09-24 10:18:16|2001-09-24 10:18:16|mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd002.htm|accelerate,acceleration|current|||htm|seniso|2001-09-24 10:18:38|2001-09-24 10:18:38|mmp@msu, mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd002h.htm|acceleration|current|||htm|seniso|2001-09-24 10:18:53|2001-09-24 10:18:53|mmp@msu, mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd003.htm|angle,projectile,horizontal|current|||htm|seniso|2001-09-24 10:19:08|2001-09-24 10:19:08|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd003h.htm|degrees|current|||htm|seniso|2001-09-24 10:19:24|2001-09-24 10:19:24|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd004.htm|coefficient,friction|current|||htm|seniso|2001-09-24 10:19:37|2001-09-24 10:19:37|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd004h.htm|acceleration,friction|current|||htm|seniso|2001-09-24 10:19:50|2001-09-24 10:19:50|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd005.htm|force,block,accelerates|current|||htm|seniso|2001-09-24 10:20:05|2001-09-24 10:20:05|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd005h.htm|kg,newtons,inserting,acceleration,practice|current|||htm|seniso|2001-09-24 10:20:22|2001-09-24 10:20:22|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd006.htm|average,practice,exam|current|||htm|seniso|2001-09-24 10:20:40|2001-09-24 10:20:40|mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd006h.htm|magnitude,average,velocity|current|||htm|seniso|2001-09-24 10:20:54|2001-09-24 10:20:54|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd007.htm|seconds,acceleration,average,truck|current|||htm|seniso|2001-09-24 10:21:15|2001-09-24 10:21:15|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd007h.htm|acceleration,average|current|||htm|seniso|2001-09-24 10:21:33|2001-09-24 10:21:33|mmp@msu|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd008.htm|acceleration,practice|current|||htm|seniso|2001-09-24 10:21:53|2001-09-24 10:21:53|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd008h.htm|acceleration|current|||htm|seniso|2001-09-24 10:22:13|2001-09-24 10:22:13|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd009.htm|ball,velocity|current|||htm|seniso|2001-09-24 10:22:31|2001-09-24 10:22:31|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd009h.htm|practice,exam|current|||htm|seniso|2001-09-24 10:23:31|2001-09-24 10:23:31|mmp@msu|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd010.htm|fish,elevator,downward,decreasing,weight|current|||htm|seniso|2001-09-24 10:23:49|2001-09-24 10:23:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd010h.htm|force,magnitude,acceleration,decreasing,practice,velocity|current|||htm|seniso|2001-09-24 10:24:15|2001-09-24 10:24:15|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd011.htm|block,respectively,static,coefficient|current|||htm|seniso|2001-09-24 10:24:37|2001-09-24 10:24:37|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd011h.htm|forces,force,block,static|current|||htm|seniso|2001-09-24 10:24:59|2001-09-24 10:24:59|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd012.htm|angle,force,practice,external|current|||htm|seniso|2001-09-24 10:25:21|2001-09-24 10:25:21|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd012h.htm|forces,gravity,force,block,component,friction,incline,velocity|current|||htm|seniso|2001-09-24 10:25:46|2001-09-24 10:25:46|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd013.htm|bullet,heavier,bullets|current|||htm|seniso|2001-09-24 10:26:20|2001-09-24 10:26:20|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd013h.htm|bullets,practice|current|||htm|seniso|2001-09-24 10:26:52|2001-09-24 10:26:52|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd014.htm|book,gravity,air,velocity|current|||htm|seniso|2001-09-24 10:27:20|2001-09-24 10:27:20|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd014h.htm|gravitational,against,potential|current|||htm|seniso|2001-09-24 10:27:44|2001-09-24 10:27:44|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd015.htm|energy,car,kinetic|current|||htm|seniso|2001-09-24 10:28:05|2001-09-24 10:28:05|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd015h.htm|car,kinetic,practice,exam|current|||htm|seniso|2001-09-24 10:28:30|2001-09-24 10:28:30|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd016.htm|ball,angle,energy,building,degrees,kinetic|current|||htm|seniso|2001-09-24 10:28:49|2001-09-24 10:28:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd016h.htm|angle,energy,practice,exam|current|||htm|seniso|2001-09-24 10:29:10|2001-09-24 10:29:10|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd017.htm|kg,joules,angle,energy,degrees,block,friction,constant,slides,incline|current|||htm|seniso|2001-09-24 10:29:32|2001-09-24 10:29:32|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd017h.htm|energy,kinetic,potential|current|||htm|seniso|2001-09-24 10:29:59|2001-09-24 10:29:59|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd018.htm|angle,boat,river|current|||htm|seniso|2001-09-24 10:30:23|2001-09-24 10:30:23|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd018h.htm|boat|current|||htm|seniso|2001-09-24 10:30:43|2001-09-24 10:30:43|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd019.htm|angle,ceiling,tension,wire,wires|current|||htm|seniso|2001-09-24 10:31:03|2001-09-24 10:31:03|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd019h.htm|equilibrium,net,force,component|current|||htm|seniso|2001-09-24 10:31:29|2001-09-24 10:31:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd020.htm|acceleration,machine,friction,string,pulley,atwood|current|||htm|seniso|2001-09-24 10:31:53|2001-09-24 10:31:53|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd020h.htm|block,exam|current|||htm|seniso|2001-09-24 10:32:22|2001-09-24 10:32:22|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd021.htm|flying,angle,shot,arrow|current|||htm|seniso|2001-09-24 10:32:46|2001-09-24 10:32:46|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd021h.htm|flying,arrow|current|||htm|seniso|2001-09-24 10:33:06|2001-09-24 10:33:06|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd022.htm|exam|current|||htm|seniso|2001-09-24 10:33:29|2001-09-24 10:33:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/cd022h.htm|practice,exam|current|||htm|seniso|2001-09-24 10:33:45|2001-09-24 10:33:45|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1/overview.htm|chapters,practice,exam|current|||htm|seniso|2001-09-24 10:34:15|2001-09-24 10:34:15|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd001.htm|tension,block|current|||htm|seniso|2001-09-24 11:34:35|2001-09-24 11:34:35|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd001h.htm||current|||htm|seniso|2001-09-24 11:34:54|2001-09-24 11:34:54|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd002.htm|angle,inertia,mass,inclined,practice,plane,rolling,disk|current|||htm|seniso|2001-09-24 11:35:08|2001-09-24 11:35:08|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd002h.htm|tranlational,rotational,kinetic,inertia,mass,potential,disk,velocity|current|||htm|seniso|2001-09-24 11:35:34|2001-09-24 11:35:34|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd003.htm|forces,exert,pistons|current|||htm|seniso|2001-09-24 11:35:58|2001-09-24 11:35:58|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd003h.htm|pressure|current|||htm|seniso|2001-09-24 11:36:16|2001-09-24 11:36:16|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd004.htm|submerged,gravity,float,sink,floats,specific,volume,liquid|current|||htm|seniso|2001-09-24 11:36:32|2001-09-24 11:36:32|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd004h.htm|force,displaced,liquid,buoyant|current|||htm|seniso|2001-09-24 11:37:00|2001-09-24 11:37:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd005.htm|gases,ideal,molecules,temperature,pressure,average,mass,volume,momenta|current|||htm|seniso|2001-09-24 11:37:18|2001-09-24 11:37:18|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd005h.htm|gas,gases,ideal,law|current|||htm|seniso|2001-09-24 11:37:43|2001-09-24 11:37:43|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd006.htm|angular,acceleration,centripetal,practice,velocity|current|||htm|seniso|2001-09-24 11:38:00|2001-09-24 11:38:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd006h.htm|acceleration|current|||htm|seniso|2001-09-24 11:44:40|2001-09-24 11:44:40|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd007.htm|angular,radius,circular,race,acceleration|current|||htm|seniso|2001-09-24 11:44:55|2001-09-24 11:44:55|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd007h.htm|acceleration,velocity|current|||htm|seniso|2001-09-24 11:45:15|2001-09-24 11:45:15|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd008.htm|energy,gun,bullet,fires,kinetic,conserved|current|||htm|seniso|2001-09-24 11:45:31|2001-09-24 11:45:31|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd008h.htm|gun,bullet,ineleastic,conserved,firing,collision,recoils|current|||htm|seniso|2001-09-24 11:45:52|2001-09-24 11:45:52|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd009.htm|ball,bounced,kinetic|current|||htm|seniso|2001-09-24 11:46:16|2001-09-24 11:46:16|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd009h.htm|energy,fraction,kinetic|current|||htm|seniso|2001-09-24 11:46:39|2001-09-24 11:46:39|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd010.htm|energy,gravitational,kinetic,potential|current|||htm|seniso|2001-09-24 11:47:00|2001-09-24 11:47:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd010h.htm|energy,gravitational,kinetic|current|||htm|seniso|2001-09-24 11:47:23|2001-09-24 11:47:23|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd011.htm|spherical,planet,surface|current|||htm|seniso|2001-09-24 11:47:48|2001-09-24 11:47:48|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd011h.htm|gravitational,force,weight|current|||htm|seniso|2001-09-24 11:48:08|2001-09-24 11:48:08|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd012.htm|submerged,gravity,suspended,container,specific|current|||htm|seniso|2001-09-24 11:48:27|2001-09-24 11:48:27|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd012h.htm|acting,force,buoyant|current|||htm|seniso|2001-09-24 11:48:50|2001-09-24 11:48:50|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd013.htm||current|||htm|seniso|2001-09-24 11:49:10|2001-09-24 11:49:10|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd013h.htm||current|||htm|seniso|2001-09-24 11:49:29|2001-09-24 11:49:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd014.htm|heat,equilibrium,temperature,ice,fridge,mixture,specific,softdrink|current|||htm|seniso|2001-09-24 11:49:47|2001-09-24 11:49:47|mmp@msu|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd014h.htm|heat,temperature,mixture,melt,softdrink|current|||htm|seniso|2001-09-24 11:50:14|2001-09-24 11:50:14|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd015.htm|skater,counterclockwise,ice,clockwise,inertia,piruette|current|||htm|seniso|2001-09-24 11:50:38|2001-11-02 05:25:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd015h.htm|inertia,mass,rotation|current|||htm|seniso|2001-09-24 11:51:12|2001-09-24 11:51:12|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd016.htm|skater,length,ice,skaters,mass,separation|current|||htm|seniso|2001-09-24 11:51:32|2001-09-24 11:51:32|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd016h.htm|momentum,moment,inertia|current|||htm|seniso|2001-09-24 11:51:58|2001-09-24 11:51:58|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd017.htm|probe,shot,earth,velocity|current|||htm|seniso|2001-09-24 11:52:25|2001-09-24 11:52:25|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd017h.htm|energy,kinetic,conservation,potential|current|||htm|seniso|2001-09-24 11:52:46|2001-09-24 11:52:46|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd018.htm|masses,acceleration,machine,mass,pulley,atwood,disk|current|||htm|seniso|2001-09-24 11:53:11|2001-09-24 11:53:11|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/cd018h.htm|moment,acceleration,inertia|current|||htm|seniso|2001-09-24 11:53:38|2001-09-24 11:53:38|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2/overview.htm|practice,exam|current|||htm|seniso|2001-09-24 11:54:00|2001-09-24 11:54:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd001.htm|masses,frictionless,atwoods,acceleration,machine,mass,string,massless|current|||htm|seniso|2001-09-24 12:10:59|2001-09-24 12:10:59|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd001h.htm|acceleration|current|||htm|seniso|2001-09-24 12:11:24|2001-09-24 12:11:24|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd002.htm|snow,kinetic,coefficient,friction,skier|current|||htm|seniso|2001-09-24 12:11:40|2001-09-24 12:11:40|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd002h.htm|acceleration|current|||htm|seniso|2001-09-24 12:12:03|2001-09-24 12:12:03|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd003.htm|energy,frictionless,spring,displacement|current|||htm|seniso|2001-09-24 12:12:19|2001-09-24 12:12:19|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd003h.htm|energy,spring|current|||htm|seniso|2001-09-24 12:12:49|2001-09-24 12:12:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd004.htm|ball,building|current|||htm|seniso|2001-09-24 12:13:08|2001-11-29 11:05:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd004h.htm|energy,velocity|current|||htm|seniso|2001-09-24 12:13:28|2001-09-24 12:13:28|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd005.htm|energy,gravitational,heights,potential|current|||htm|seniso|2001-09-24 12:13:45|2001-09-24 12:13:45|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd005h.htm|gravitational,conservative,gravity,force,potential|current|||htm|seniso|2001-09-24 12:14:07|2001-09-24 12:14:07|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd006.htm|masslesss,acceleration,mass,rotating,string,pulley,disk|current|||htm|seniso|2001-09-24 12:14:27|2001-09-24 12:14:27|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd006h.htm|acceleration|current|||htm|seniso|2001-09-24 12:14:48|2001-09-24 12:14:48|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd007.htm|sliding,angle,mass,linear,friction,practice,spheres,plane,rolling|current|||htm|seniso|2001-09-24 12:15:03|2001-09-24 12:15:03|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd007h.htm|sliding,energy,rotational,sphere,kinetic,potential,rolling|current|||htm|seniso|2001-09-24 12:15:28|2001-09-24 12:15:28|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd008.htm|diskshaped,rolls,pizza,pepperoni,spins,dough,mushroom|current|||htm|seniso|2001-09-24 12:15:49|2001-09-24 12:15:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd008h.htm||current|||htm|seniso|2001-09-24 12:16:17|2001-09-24 12:16:17|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd009.htm|fundamental,vibrate,wave,string,harmonic|current|||htm|seniso|2001-09-24 12:16:34|2001-09-24 12:16:34|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd009h.htm|antinodes,harmonic|current|||htm|seniso|2001-09-24 12:16:56|2001-09-24 12:16:56|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd010.htm|frictionless,spring,slides|current|||htm|seniso|2001-09-24 12:18:10|2001-09-24 12:18:10|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd010h.htm|maximum,mass,displacement|current|||htm|seniso|2001-09-24 12:18:48|2001-09-24 12:18:48|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd011.htm|pendulum,string,oscillations|current|||htm|seniso|2001-09-24 12:19:23|2001-09-24 12:19:23|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd011h.htm|oscillations|current|||htm|seniso|2001-09-24 12:19:50|2001-09-24 12:19:50|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd012.htm|harmonic,velocity|current|||htm|seniso|2001-09-24 12:20:12|2001-09-24 12:20:12|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd012h.htm|displacement,derivative|current|||htm|seniso|2001-09-24 12:20:37|2001-09-24 12:20:37|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd013.htm||current|||htm|seniso|2001-09-24 12:21:06|2001-09-24 12:21:06|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd013h.htm||current|||htm|seniso|2001-09-24 12:21:34|2001-09-24 12:21:34|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd014.htm|trajectory,speed,acceleration,parabolic|current|||htm|seniso|2001-09-24 12:21:57|2001-09-24 12:21:57|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd014h.htm|acceleration,velocity|current|||htm|seniso|2001-09-24 12:22:42|2001-09-24 12:22:42|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd015.htm|ball,balls|current|||htm|seniso|2001-09-24 12:23:09|2001-09-24 12:23:09|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd015h.htm||current|||htm|seniso|2001-09-24 12:23:40|2001-09-24 12:23:40|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd016.htm|heated,temperature,force,fractional|current|||htm|seniso|2001-09-24 12:24:04|2001-09-24 12:24:04|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd016h.htm||current|||htm|seniso|2001-09-24 12:24:32|2001-09-24 12:24:32|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd017.htm|gravity,water,specific|current|||htm|seniso|2001-09-24 12:24:53|2001-09-24 12:24:53|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd017h.htm|ratio|current|||htm|seniso|2001-09-24 12:25:14|2001-09-24 12:25:14|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd018.htm|equilibrium,molecule,vapor,water|current|||htm|seniso|2001-09-24 12:25:37|2001-09-24 12:25:37|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd018h.htm||current|||htm|seniso|2001-09-24 12:26:06|2001-09-24 12:26:06|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd019.htm|gas,ideal,temperature,pressure,volume|current|||htm|seniso|2001-09-24 12:26:29|2001-09-24 12:26:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd019h.htm||current|||htm|seniso|2001-09-24 12:26:53|2001-09-24 12:26:53|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd020.htm|sounds,decibel,intensities,sound,levels|current|||htm|seniso|2001-09-24 12:27:10|2001-11-29 11:10:25|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd020h.htm||current|||htm|seniso|2001-09-24 12:27:37|2001-09-24 12:27:37|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd021.htm|speed,airplane,sound,hz,airport,frequency|current|||htm|seniso|2001-09-24 12:27:55|2001-09-24 12:27:55|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd021h.htm||current|||htm|seniso|2001-09-24 12:28:22|2001-09-24 12:28:22|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd022.htm|speed,sound,hz,beat,frequency|current|||htm|seniso|2001-09-24 12:28:43|2001-09-24 13:21:36|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd022h.htm|wavelength,beat,frequency|current|||htm|seniso|2001-09-24 12:29:09|2001-09-24 13:23:18|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd023.htm|ball,impulse,force,baseball,impact,collision|current|||htm|seniso|2001-09-24 13:21:50|2001-09-24 13:21:50|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd023h.htm|impulse,force|current|||htm|seniso|2001-09-24 13:22:20|2001-09-24 13:22:20|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd024.htm|ball,cannonball,balls,collide,golf,collision|current|||htm|seniso|2001-09-24 13:22:45|2001-09-24 13:22:45|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd024h.htm|eleastic,ball,cannonball,balls,velocities,collision,velocity,recoils|current|||htm|seniso|2001-09-24 13:23:31|2001-09-24 13:23:31|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd025.htm|ballistic,bullet,inelastic,collision,velocity|current|||htm|seniso|2001-09-24 13:24:02|2001-09-24 13:24:02|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd025h.htm|energy,converted,kinetic,potential,inelastic,collision|current|||htm|seniso|2001-09-24 13:24:29|2001-09-24 13:24:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd026.htm|period,orbital,orbiting|current|||htm|seniso|2001-09-24 13:24:57|2001-09-24 13:24:57|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd026h.htm|period,law,keplers|current|||htm|seniso|2001-09-24 13:25:23|2001-09-24 13:25:23|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd027.htm|gravity,orbit,spaceship|current|||htm|seniso|2001-09-24 13:26:22|2001-09-24 13:26:22|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd027h.htm|gravitational,gravity,spaceship|current|||htm|seniso|2001-09-24 13:26:49|2001-09-24 13:26:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd028.htm|equilibrium,ice,melt|current|||htm|seniso|2001-09-24 13:27:14|2001-09-24 13:27:14|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd028h.htm|equilibrium,melting|current|||htm|seniso|2001-09-24 13:27:42|2001-09-24 13:27:42|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd029.htm|gas,isobaric,law,thermodynamics|current|||htm|seniso|2001-09-24 13:28:05|2001-09-24 13:28:05|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/cd029h.htm|gas,heat,isobaric,work,ideal,temperature,pressure,volume,potential|current|||htm|seniso|2001-09-24 13:28:32|2001-09-24 13:28:32|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3/overview.htm||current|||htm|seniso|2001-09-24 13:29:03|2001-11-29 11:16:19|mmp@msu (Michigan State University)|default
Sample Problem: Calculation of the volume of a sphere|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Calculations|/res/msu/mmp/kap1/der/cd0111.htm|derivation,proof|current||Calculation of the volume of a sphere|htm|seniso|2001-08-09 20:31:48|2001-08-25 14:06:17|mmp@msu (Michigan State University)|default
Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/waves.gif||current|||gif|seniso|2001-07-09 10:29:14|2001-08-16 22:43:22|mmp@msu (Michigan State University)|default
La + La collision|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/La+La.gif||current||Picture of La + La collision|gif|seniso|2001-07-09 10:29:14|2001-12-04 21:12:25|mmp@msu (Michigan State University)|default
Galaxy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/galaxy.gif||current|||gif|seniso|2001-07-09 22:53:27|2001-08-16 22:34:20|mmp@msu (Michigan State University|default
Why Study Physics?|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/why.gif||current|||gif|seniso|2001-07-11 22:26:32|2001-08-16 22:45:06|mmp@msu (Michigan State University)|default
Problem Solving Steps|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Problems|/res/msu/mmp/kap1/picts/problem.gif||current||Steps for problem solving|gif|seniso|2001-07-16 09:12:49|2001-08-16 22:39:14|mmp@msu (Michigan State University)|default
Bathtub|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/b.gif||current|||gif|seniso|2001-08-16 22:30:21|2001-08-16 22:30:21|mmp@msu (Michigan State University)|default
Tape Measure|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Units|/res/msu/mmp/kap1/picts/backunit.gif||current|||gif|seniso|2001-08-16 22:31:36|2001-08-16 22:31:36|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
School bus|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/bus.gif||current|||gif|seniso|2001-08-16 22:32:05|2001-08-16 22:32:05|mmp@msu (Michigan State University)|default
Cylinder|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Units|/res/msu/mmp/kap1/picts/cyl.gif|radius,height|current|||gif|seniso|2001-08-16 22:32:46|2001-08-16 22:32:46|mmp@msu (Michigan State University)|default
Lenght Scale|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Units|/res/msu/mmp/kap1/picts/length.jpg|lenght|current||Length scale|jpg|seniso|2001-08-16 22:35:25|2001-08-16 22:35:25|mmp@msu (Michigan State University)|default
Wolfie|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/m1e.jpg||current|||jpg|seniso|2001-08-16 22:36:19|2001-08-16 22:36:19|mmp@msu (Michigan State University)|default
Mass Scale|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Units|/res/msu/mmp/kap1/picts/mass.jpg|mass|current|||jpg|seniso|2001-08-16 22:36:52|2001-08-16 22:37:24|mmp@msu (Michigan State University)|default
Relation Between Physics and Other Fields|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Summaries|/res/msu/mmp/kap1/picts/relation.jpg||current|||jpg|seniso|2001-08-16 22:40:02|2001-08-16 22:40:02|mmp@msu (Michigan State University)|default
Scale|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictues, Units|/res/msu/mmp/kap1/picts/scale.gif|weight|current|||gif|seniso|2001-08-16 22:40:51|2001-08-16 22:40:51|mmp@msu (Michigan State University)|default
Scale|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Units|/res/msu/mmp/kap1/picts/scale.jpg|weight|current|||jpg|seniso|2001-08-16 22:41:34|2001-08-16 22:41:34|mmp@msu (Michigan State University)|default
Screw|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/screw.gif||current|||gif|seniso|2001-08-16 22:42:13|2001-08-16 22:42:13|mmp@msu (Michigan State University)|default
Slug|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/slug.gif||current|||gif|seniso|2001-08-16 22:42:32|2001-08-16 22:42:32|mmp@msu (Michigan State University)|default
Stopwatch|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Time|/res/msu/mmp/kap1/picts/watch.gif|time|current|||gif|seniso|2001-08-16 22:42:51|2001-08-16 22:42:51|mmp@msu (Michigan State University)|default
Wolfie|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/wb.jpg||current|||jpg|seniso|2001-08-16 22:43:38|2001-08-16 22:43:38|mmp@msu (Michigan State University)|default
World|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/world.gif||current|||gif|seniso|2001-08-16 22:46:02|2001-08-16 22:46:02|mmp@msu (Michigan State University)|default
World2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/world2.gif||current|||gif|seniso|2001-08-16 22:46:28|2001-08-21 11:16:07|mmp@msu (Michigan State University)|default
Time Scale|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures|/res/msu/mmp/kap1/picts/zeit.jpg||current|||jpg|seniso|2001-08-16 22:47:15|2001-08-16 22:47:15|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Units|/res/msu/mmp/kap1/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Units|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap1/kap1.sequence||current|||sequence|seniso|2001-08-17 16:25:50|2001-08-23 07:06:05|mmp@msu (Michigan State University)|default
Why Study Physics?, , |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Conceptions, , |/res/msu/mmp/kap1/pg001.htm|concept,sciences,science,scientific,physics,explanations|current||Shows how physics is the foundation for other disciplines |htm|seniso|2001-07-09 10:29:14|2001-08-16 22:26:49|mmp@msu (Michigan State University)|default
Physics and Other Fields|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Relations|/res/msu/mmp/kap1/pg002.htm|science,sciences,physics,interconnections|current||Explanation of how physics is the foundation for other disciplines|htm|seniso|2001-07-11 20:40:20|2001-08-21 12:12:49|mmp@msu (Michigan State University)|default
Introduction to SI Units|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units|/res/msu/mmp/kap1/pg003.htm|unit,si,units|current||Introduction to SI units|htm|seniso|2001-07-12 08:38:08|2001-08-18 20:57:49|mmp@msu (Michigan State University)|default
Length Scales|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units |/res/msu/mmp/kap1/pg004.htm|scales,length,powers,scale,units|current||Description of lenght scales|htm|seniso|2001-07-11 20:58:26|2001-08-18 20:58:48|mmp@msu (Michigan State University)|default
Time Scales|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units|/res/msu/mmp/kap1/pg005.htm|scales,time,interval,measurements|current||An overview of time scales|htm|seniso|2001-07-11 21:03:52|2001-08-18 21:02:05|mmp@msu (Michigan State University)|default
Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units|/res/msu/mmp/kap1/pg006.htm|kg,intrinsic,mass,scale|current||Explanation of mass|htm|seniso|2001-07-11 21:06:52|2001-08-18 21:04:52|mmp@msu (Michigan State University)|default
British Units|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units|/res/msu/mmp/kap1/cd006.htm|unit,britain,british,units|current||Use of British Units vs. SI Units|htm|seniso|2001-07-23 11:32:32|2001-09-12 16:31:17|mmp@msu (Michigan State University)|default
Unit Conversion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units|/res/msu/mmp/kap1/cd007.htm|unit,convert,si,conversion,british,units,conversions|current||Conversion between SI units and British units.|htm|seniso|2001-08-07 17:50:46|2001-08-25 14:04:33|mmp@msu (Michigan State University)|default
Dimensional Analysis |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units |/res/msu/mmp/kap1/cd008.htm|analysis,converted,dimension,dimensional,dimensionality,dimensions,length,mass,meters,unit,units|current||Explanation of dimension vs. units in Intro Physics|htm|seniso|2001-07-12 14:27:53|2002-09-04 12:00:45|mmp@msu (Michigan State University)|default
Significant Figures , |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Significant Figures , |/res/msu/mmp/kap1/cd009a.htm|sigfigs,digits,digit,significant|current||Introduction to significant figures|htm|seniso|2001-08-09 20:45:32|2001-08-16 22:11:58|mmp@msu (Michigan State University)|default
Applet: Significant Figures |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units|/res/msu/mmp/kap1/cd009b.htm|figures,digits,significant|current||Applet using signficant figures|htm|seniso|2001-08-09 19:38:16|2001-08-21 12:13:59|mmp@msu (Michigan State University)|default
Scientific Notation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units, |/res/msu/mmp/kap1/cd010.htm|number,notation,digits,mantissa,superscripts,digit,scientific,significant,numbers|current||Introduction to scientific notation|htm|seniso|2001-07-12 16:52:02|2001-08-16 22:19:43|mmp@msu (Michigan State University)|default
Problem Solving|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Problems |/res/msu/mmp/kap1/cd011.htm|concept,solution|current||A guide to problem solving|htm|seniso|2001-07-12 17:25:30|2001-08-21 12:14:54|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units|/res/msu/mmp/kap1/cd018.htm|unit,units|current||Chapter 1 true/false practice|htm|seniso|2001-08-16 22:15:03|2001-08-24 02:43:22|mmp@msu (Michigan State University)|default
Fake Chapther sequence|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Units|/res/msu/mmp/kap1/kap1-2.sequence||current|||sequence|seniso|2001-06-04 11:20:46|2001-06-04 11:20:46|mmp@msu (Michigan State University)|default
Introduction to SI Units |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units |/res/msu/mmp/kap1/cd005.htm|kg,system,micro,years,unit,length,kilogram,metric,days,nano,si,standard,meter,day,definition,wave,kilo,milli,units,oscillations|current||Introduction to SI Units|htm|seniso|2001-07-11 20:51:09|2001-08-25 14:03:05|mmp@msu (Michigan State University)|default
Weight|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)||/res/msu/mmp/kap1/problems/cd012.problem|conversion,kg,kgs,mass,pound,pounds,weigh,weight|current||Sample problem on mass vs. weight|problem|seniso|2001-08-18 19:47:18|2002-07-19 10:01:50|mmp@msu (Michigan State University)|default
Earth Radius|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)||/res/msu/mmp/kap1/problems/cd013.problem|digits,figuresw,digit,significant,units|current|||problem|seniso|2001-08-21 06:54:29|2001-09-05 09:59:21|mmp@msu|default
Volume of Cylinder|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)||/res/msu/mmp/kap1/problems/cd014.problem|conversion,unit|current|||problem|seniso|2001-08-21 07:56:00|2002-08-29 11:37:50|mmp@msu|default
Significant Figures|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)||/res/msu/mmp/kap1/problems/cd015.problem|significant,figures|current|||problem|seniso|2001-08-21 06:56:39|2001-08-21 06:56:39|mmp@msu|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)||/res/msu/mmp/kap1/problems/cd016.problem|conversion,hour,km,unit|current|||problem|seniso|2001-08-17 18:32:20|2002-08-29 11:40:39|mmp@msu|default
Dividing Measurements|Gerd Kortemeyer|Units|/res/msu/mmp/kap1/problems/unitone.problem|unit,units|current||Dividing measurements problem|problem|seniso|2001-08-22 14:48:30|2001-08-24 02:46:50|mmp@msu (Michigan State University)|default
Unit Operations|Gerd Kortemeyer|Units|/res/msu/mmp/kap1/problems/unittwo.problem|unit,units|current|||problem|seniso|2001-08-22 17:24:50|2001-08-27 21:56:01|mmp@msu (Michigan State University)|default
Concepts|Gerd Kortemeyer|Units|/res/msu/mmp/kap1/problems/unitthree.problem|km,unit,prefix,dimension,meters,cm,centimeters,units|current|||problem|seniso|2001-08-23 07:01:12|2001-12-28 12:58:46|mmp@msu (Michigan State University)|default
Dimensional Analysis Examples,|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units |/res/msu/mmp/kap1/cd008a.htm|si,dimensional,analysis,dimensionality,dimensions|current||Exmaples of dimensional analysis for Intro Physics|htm|seniso|2001-07-23 11:32:56|2001-09-12 16:43:12|mmp@msu (Michigan State University)|default
Introduction Page to Chapter on Units|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Units|/res/msu/mmp/kap1/cd004.htm|units|current||Introduction page to the chapter on units|htm|seniso|2001-08-07 14:09:58|2001-09-06 20:05:39|mmp@msu (Michigan State University)|default
Significant Figures, |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Units, |/res/msu/mmp/kap1/cd009.htm|sf,digits,accuracy,sfs,significant|current||Explanation on how to use significant figures|htm|seniso|2001-08-09 01:03:11|2001-08-16 22:11:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Units|/res/msu/mmp/kap1/SigFigs.class||current|||class|seniso|2001-08-22 10:26:58|2001-08-22 10:26:58|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Units|/res/msu/mmp/kap1/TFCanv.class||current|||class|seniso|2001-08-22 10:27:42|2001-08-22 10:27:42|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Units|/res/msu/mmp/kap1/TFCon.class||current|||class|seniso|2001-08-22 10:28:16|2001-08-22 10:28:16|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Units|/res/msu/mmp/kap1/TrueFalse.class||current|||class|seniso|2001-08-22 10:28:49|2001-08-22 10:28:49|mmp@msu (Michigan State University)|default
Preliminaries|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap1/calckap1.sequence||current|||sequence|seniso|2001-08-17 16:25:50|2002-01-09 17:23:35|mmp@msu (Michigan State University)|default
Temperature Demo|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/demo/cd280.htm|heat,temperature,bimetal|current|||htm|seniso|2001-08-25 12:31:53|2001-08-25 12:31:53|mmp@msu (Michigan State University)|default
Temperature Demo|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/demo/cd284.htm|gleichgewicht,thermisches|current|||htm|sgeiso|2001-08-25 12:32:35|2001-08-25 12:32:35|mmp@msu (Michigan State University)|default
Temperature Derivation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Temperature|/res/msu/mmp/kap10/der/cd2841.htm||current|||htm|seniso|2001-08-25 12:34:01|2001-08-25 12:34:01|mmp@msu (Michigan State University)|default
Mole Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Temperature|/res/msu/mmp/kap10/picts/moles_eqn.gif||current|||gif|seniso|2001-11-03 00:17:57|2001-11-03 00:17:57|mmp@msu (Michigan State University)|default
Average Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Temperature|/res/msu/mmp/kap10/picts/avforce_eqn.gif||current|||gif|seniso|2001-11-04 16:20:02|2001-11-04 16:20:02|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Temperature|/res/msu/mmp/kap10/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Temperature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap10/kap10.sequence||current|||sequence|seniso|2001-12-28 14:32:41|2001-12-28 14:32:41|mmp@msu (Michigan State University)|default
Introduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd274.htm|heat,equilibrium,forces,energy,temperature,thermal,kinetic,heating,flows|current||Introduction to temperature anf heat.|htm|seniso|2001-08-24 15:55:31|2001-11-03 00:06:23|mmp@msu (Michigan State University)|default
Temperature Ranges|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/temps.htm|beams,temperatures,collider,universe,protons,colder,ion,magnitudes,cosmos,gluons,temperature,body,nuclei,supernova,conductors,brookhaven,accelerators,coldest,boseeinstein,fission,nuclear,superconductors,relativistic,volts,explodes,condensation,boils,electron,bomb,explosion,evaporates|current||Shows the different temperature ranges for systems using the Kelvin scale.|htm|seniso|2001-08-24 16:02:43|2001-11-04 16:38:41|mmp@msu (Michigan State University)|default
Thermometers|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd275.htm|freezing,heat,thermostats,pyrometer,wavelength,expansion,unfrozen,chemoluminescence,thermocouple,temperature,voltage,bimetallic,thermal,color,light,density,thermometers,resistance,expand|current||Introduction to thermometers.|htm|seniso|2001-08-24 15:56:01|2001-11-04 16:02:17|mmp@msu (Michigan State University)|default
Temperature Scales|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd276.htm|fahrenheits,freezing,temperatures,scales,boiling,thermometer,degrees,fahrenheit,temperature,centigrade,kelvin,conversion,celsius|current||Relationship between Fahrenheit and Celsius temperature scales.|htm|seniso|2001-07-23 12:50:50|2001-11-04 16:00:04|mmp@msu (Michigan State University)|default
Gas Laws|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd277.htm|gas,charles,gases,ideal,pv,temperature,pressure,densities,law,laws,volume,thermodynamic,thermodynamics|current||Introduction to gas laws: Ideal gas law, Charles Law and Boyle's Law.|htm|seniso|2001-07-23 12:51:19|2001-11-03 00:11:28|mmp@msu (Michigan State University)|default
Kelvin Scale|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd278.htm|kelvins,temperatures,liquids,thermometer,degrees,temperature,pressure,phase,moles,applet,kelvin,volume|current||Introduction to the Kelvin scale. Includes a graph of pressure vs. temperature
 for two gases at constant volume.|htm|seniso|2001-08-24 15:57:55|2001-11-04 16:03:10|mmp@msu (Michigan State University)|default
Ideal Gas Constant|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd279.htm|gas,boltzmanns,ideal,co,moles,kelvin,constant|current||Introduction to the ideal gas constant.  |htm|seniso|2001-07-23 12:51:57|2001-11-03 00:22:54|mmp@msu (Michigan State University)|default
Thermal Expansion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd280.htm|expansion,work,strain,solids,volume|current||Introduction to thermal expansion.|htm|seniso|2001-08-24 15:58:56|2001-11-03 00:28:37|mmp@msu (Michigan State University)|default
Example: Expansion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd281.htm|length,expanding,railroad,track,temperature,force,strain,stress,expand|current||Example using the concepts of expansion.|htm|seniso|2001-08-24 15:59:54|2001-11-04 16:12:03|mmp@msu (Michigan State University)|default
Kinetic Theory|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd282.htm|impulses,gas,momentum,forces,energy,gases,impulse,random,temperature,force,pressure,collisions,kinetic,theory,elastic,conservation,particles,collision|current||Properties of the Kinetic theory for gases.|htm|seniso|2001-07-23 12:52:53|2001-11-04 16:23:06|mmp@msu (Michigan State University)|default
Applet: Kinetic Theory|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd283.htm|gas,simulation,molecules,temperature,collisions,applet,kinetic,theory|current||Kinetic theory simulation that allows you to see how the temperature and volume affect the number of collisions of gas molecules.|htm|seniso|2001-08-24 16:00:56|2001-11-04 16:25:28|mmp@msu (Michigan State University)|default
Temperature and Average Kinetic Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd284.htm|equilibrium,joules,boltzmanns,angular,molecule,ideal,mix,temperature,pressure,average,kinetic,velocities,velocity|current||Explanation of the velocity of gas molecules as a function of the temperature.
 Includes a simulation of a mixed hot and cold gas reaching equilibrium.|htm|seniso|2001-08-24 16:01:18|2001-11-10 14:37:15|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/cd292.htm|equilibrium,solid,ideal,atoms,molecules,temperature,pressure,average|current||True False practice for the chapter on temperature.|htm|seniso|2001-07-23 12:53:19|2001-11-04 16:35:31|mmp@msu (Michigan State University)|default
Temperature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap10/sum10.htm|ke,gas,boltzmanns,expansion,temperature,thermal,kelvin,scale,summary|current||Temperature summary page.|htm|seniso|2001-08-24 16:02:21|2001-11-04 16:36:24|mmp@msu (Michigan State University)|default
Degrees F|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/problems/cd285.problem|degrees,temperature|current||Problem:
 Conversion between degrees Fahrenheit and Celsius.|problem|seniso|2001-08-24 16:03:54|2001-10-21 22:07:59|mmp@msu|default
Number of Moles|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/problems/cd286.problem|gas,nitrogen,atm,moles,atmospheres|current||Problem:
 Calculation of the number of moles.|problem|seniso|2001-08-24 16:04:07|2001-10-21 22:09:23|mmp@msu|default
Contract|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/problems/cd287.problem|concrete,thermal,coefficient,linear,contracting,contract,contraction|current||Problem:
 Calculation of the amount of contraction.|problem|seniso|2001-08-24 16:04:22|2001-10-21 22:10:47|mmp@msu|default
Temperature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/problems/cd288.problem|gas,molecule,ideal,temperature,kinetic|current||Problem:
 Calculation of the temperature of a gas molecule.|problem|seniso|2001-08-24 16:04:47|2001-10-21 22:12:05|mmp@msu|default
Surface Rise|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/problems/cd289.problem|gasoline,temperature,thermal,coefficient,volume,surface|current||Problem:
 Calculation of how much the surface of gasoline rises when the temperature is
 raised.|problem|seniso|2001-08-24 16:05:02|2001-10-21 22:15:32|mmp@msu|default
Pressure|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/problems/cd290.problem|gas,thermometer,temperature,pressure,kelvin,volume,constant|current||Problem:
 Calculation of the prssure of a constant volume gas thermometer.|problem|seniso|2001-08-24 16:05:25|2001-10-21 22:22:18|mmp@msu|default
Average Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/problems/cd291.problem|gas,energy,molecule,speed,molecules,average,kinetic,solution|current||Problem:
 Calculation of the average speed of gas molecules.|problem|seniso|2001-08-24 16:05:39|2001-10-21 22:25:23|mmp@msu|default
Moles of Gas|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/kap10/problems/cd291a.problem|gas,ideal,degrees,temperature,pressure,moles,volume|current||Problem:
 Calculation of the number of moles of gas.|problem|seniso|2001-08-24 16:06:06|2001-10-30 21:57:42|mmp@msu|default
Volume Expansion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Temperature, |/res/msu/mmp/kap10/cd280a.htm|coefficient,expansion,linear,volume|current||How to calculate volume expansion given the coefficient of linear expansion or
 with the coefficient of volume expansion.|htm|seniso|2001-07-23 12:52:24|2001-11-04 16:06:52|mmp@msu (Michigan State University)|default
|Anne Denton|Summaries, Temperature|/res/msu/mmp/kap10/Guest1.htm|gas,applet|current|||htm|seniso|2001-08-24 15:54:11|2001-08-24 15:54:11|mmp@msu (Michigan State University)|default
Chapter Frontpage Temperature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Temperature|/res/msu/mmp/kap10/cd273.htm|temperature,chapter|current||Temperature chapter frontpage.|htm|seniso|2001-08-24 15:54:55|2001-11-03 00:05:25|mmp@msu (Michigan State University)|default
Temperature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap10/calckap10.sequence||current|||sequence|seniso|2001-11-28 18:05:39|2002-04-08 18:34:26|mmp@msu (Michigan State University)|default
|GMultimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Heat|/res/msu/mmp/kap11/demo/cd303.htm|video,clip,melts|current|||htm|seniso|2001-08-24 16:21:54|2001-08-24 16:21:54|mmp@msu (Michigan State University)|default
Example: Equilibrium, , , |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat, , , |/res/msu/mmp/kap11/picts/hot.gif|equilibrium,water|current|||gif|seniso|2001-07-23 15:44:14|2001-07-23 17:12:26|mmp@msu (Michigan State University)|default
Mass Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Heat|/res/msu/mmp/kap11/picts/mass_eqn.gif||current|||gif|seniso|2001-11-05 18:04:37|2001-11-05 18:04:37|mmp@msu (Michigan State University)|default
Heat Capacity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Heat|/res/msu/mmp/kap11/picts/heatcap_eqn.gif||current|||gif|seniso|2001-11-10 00:10:37|2001-11-10 00:10:37|mmp@msu (Michigan State University)|default
Heat Capacity Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Heat|/res/msu/mmp/kap11/picts/heatcap_eqn1.gif||current|||gif|seniso|2001-11-10 00:15:32|2001-11-10 00:15:32|mmp@msu (Michigan State University)|default
Heat Capacity Equation 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Heat|/res/msu/mmp/kap11/picts/heatcap_eqn2.gif||current|||gif|seniso|2001-11-10 00:56:26|2001-11-10 00:56:26|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Heat|/res/msu/mmp/kap11/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Heat| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap11/kap11.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd293a.htm|heat,energy,work,temperature,phase,warm,mechanical,thermal,kinetic,latent,friction,conservation,potential,translational|current||Introduction to the chapter on heat.|htm|seniso|2001-07-23 14:55:18|2001-11-05 17:43:53|mmp@msu (Michigan State University)|default
Heat Units|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd294.htm|heat,energy,btuhour,calorie,oc,kcal,joule,temperature,thermal,cal,btu,kilocalorie|current||Introduction to the energy units for heat.  Includes a link to the energy unit
 conversions page.|htm|seniso|2001-07-23 14:59:43|2001-11-05 17:50:44|mmp@msu (Michigan State University)|default
Mechanical Equivalent of Heat|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd295.htm|heat,equivalent,temperature,mechanical,thermal,cal|current||Explanation of ways to measure the relationship between a Joule and a calorie.|htm|seniso|2001-07-23 15:07:05|2001-11-05 17:58:31|mmp@msu (Michigan State University)|default
Example: Calories |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd296.htm|weights,work,mechanical,cal,weight,calories|current||Example using the concepts of work and energy.|htm|seniso|2001-07-23 15:08:27|2001-11-05 18:13:58|mmp@msu (Michigan State University)|default
Heat of Combustion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd297.htm|heat,energy,combustion,gasoline,temperature,friction,kcalkg|current||Introduction to heat of combustion including a table of numerical values for the 
 heats of combustion for some substances.|htm|seniso|2001-07-23 15:11:05|2001-11-05 18:33:29|mmp@msu (Michigan State University)|default
Specific Heat|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd298.htm|heat,energy,matter,temperature,capacity|current||Introduction to specific heat of a substance.|htm|seniso|2001-07-23 15:13:48|2001-11-05 18:48:29|mmp@msu (Michigan State University)|default
Calorimetry|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd299.htm|heat,energy,temperature,specific,calorimetry|current||Introduction to calorimetry.|htm|seniso|2001-07-23 15:26:03|2002-05-05 06:24:06|mmp@msu (Michigan State University)|default
Example: Calorimetry |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd300.htm|example,heat,tungsten,temperature,calorimetry|current||Example using the concepts of calorimetry -- calculation of the specific heat of
 a material.|htm|seniso|2001-07-23 15:28:21|2001-11-10 00:58:10|mmp@msu (Michigan State University)|default
Equilibrium Temperature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd300a.htm|transfers,temperatures,heat,equilibrium,liquids,energy,gases,temperature,capacities,insulation,calorimetry|current||Explanation of how to calculate the equilibrium temperature of a system.|htm|seniso|2001-07-23 15:29:39|2001-11-10 01:16:58|mmp@msu (Michigan State University)|default
Phases of Matter|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd301.htm|gas,heat,lattice,solid,phases,matter,molecules,temperature,pressure,electrons,phase,thermal,plasma,liquid,attractive,bonds|current||Characteristics of the three classical phases of matter on earth -- solid,
 liquid and gas.|htm|seniso|2001-07-23 15:32:18|2001-11-10 01:18:32|mmp@msu (Michigan State University)|default
Latent Heat|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd302.htm|heat,lattice,boiling,energy,solid,temperature,phase,transition,specific,latent,melt,capacity,steam,transfer|current||Explanation of phase changes between the different states of matter. Includes a 
 diagram illustrating the different phase changes between solids, liquids and 
 gases. |htm|seniso|2001-07-23 15:34:50|2001-11-10 01:21:27|mmp@msu (Michigan State University)|default
Phases of Water|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd303.htm|freezing,gas,temperatures,heat,energy,fusion,solid,phases,temperature,melting,water,phase,transition,specific,latent,melt,condensation,vaporization,liquid|current||Definition of the Celsius scale as the transition temperatures between the different
 phases of water.  Includes a diagram that graphically illustrates the latent
 heats of fusion and vaporization of water.|htm|seniso|2001-07-23 15:40:03|2001-11-10 01:25:12|mmp@msu (Michigan State University)|default
Example: Equilibrium|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat |/res/msu/mmp/kap11/cd304.htm|heat,equilibrium,temperature,melting,thermal,melts,melt|current||Example using the concepts of thermal equilibrium.|htm|seniso|2001-07-23 15:44:14|2001-11-10 01:30:51|mmp@msu (Michigan State University)|default
Heat Transfer|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd305.htm|heat,electromagnetic,molecule,fields,convection,molecules,transfered,conduction,radiation|current||Explanation of the 3 modes of heat transfer: conduction, convection and 
 radiation.|htm|seniso|2001-07-23 16:05:42|2001-11-10 01:32:23|mmp@msu (Michigan State University)|default
Conduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd306.htm|heat,conduct,atoms,temperature,conductors,conduction,thermal,conductor,insulators,solids|current||Introduction to heat conduction for solids with two primary categories for solids--
 conductors and insulators.|htm|seniso|2001-07-23 16:09:38|2001-11-10 01:42:05|mmp@msu (Michigan State University)|default
Radiation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd307.htm|temperatures,heat,electromagnetic,temperature,blackbody,microwave,radiation,applet,radiates,stefanboltzmann,spectrum|current||Definition of radiation as a mode of heat transfer and Stefan's Law.  Includes
 an applet of the blackbody radiation law.|htm|seniso|2001-07-23 17:11:01|2001-11-10 02:03:38|mmp@msu (Michigan State University)|default
Example: Radiation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd308.htm|temperature,radiation,emissivity,radiated,kelvin,power|current||Example calculating the net power radiated by the human body.|htm|seniso|2001-07-23 17:11:44|2001-11-10 02:05:46|mmp@msu (Michigan State University)|default
True False Practice |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/cd319.htm|heat,fusion,degrees,temperature,phase,mechanical,specific,radiated,latent,kelvin,degree,conducted|current||True False practice for the chapter on heat.|htm|seniso|2001-07-23 17:12:04|2001-11-10 02:06:24|mmp@msu (Michigan State University)|default
Heat|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap11/sum11.htm|heat,fusion,combustion,conduction,mechanical,thermal,specific,ti,latent,calorimetry,conductivity,vaporization,summary,stefans|current||Heat Summary Page.|htm|seniso|2001-08-24 16:17:12|2001-11-10 02:08:08|mmp@msu (Michigan State University)|default
Power|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd309.problem|radiation,emissivity,radiate,temperature,stefans|current||Problem:
 Calculation of how much power an object radiates.|problem|seniso|2001-08-24 16:17:35|2001-10-30 21:59:56|mmp@msu|default
Kilocalories|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd310.problem|heat,specific,latent,melt,heating,liquid,temperature,ice,water,heats|current||Problem:
 Calculation of the amount of energy required to change ice to steam.|problem|seniso|2001-08-24 16:17:53|2001-10-30 22:01:47|mmp@msu|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd311.problem|heat,mass,latent,vaporization,vapor,temperature,water|current||Problem:
 Calculation of the amount of energy lost due to evaporation.|problem|seniso|2001-08-24 16:18:19|2001-10-30 22:04:39|mmp@msu|default
Kilocalories 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd312.problem|thermal,heat,energy,weight,mechanical|current||Problem:
 Calculation of the amount of kcal of heat energy are equivalent to a lift.|problem|seniso|2001-08-24 16:18:44|2001-10-30 22:06:20|mmp@msu|default
Energy 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd313.problem|combustion,energy,heat|current||Problem:
 Calculation of the amount of energy released from the combustion of gasoline.|problem|seniso|2001-08-24 17:19:00|2002-09-02 13:46:39|mmp@msu|default
Temperature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd314.problem|equilibrium,temperature,copper|current||Problem:
 Calculation of the final temperature of two blocks.|problem|seniso|2001-08-24 16:19:15|2001-10-30 22:10:03|mmp@msu|default
Time|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd315.problem|heat,boil,temperature|current||Problem:
 Calculation of the time it takes to boil away an amount of liquid in a pot.|problem|seniso|2001-08-24 16:19:34|2001-10-30 22:13:19|mmp@msu|default
Time 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd316.problem|immersion,joules,watt,power,joule,temperature,watts|current||Problem:
 Calculation of the time it takes to bring water to a final temperature in an
 immersion heater.|problem|seniso|2001-08-24 16:19:53|2001-10-30 22:14:56|mmp@msu|default
Temperature 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd317.problem|heat,specific,equilibrium,calorimetry,temperature|current||Problem:
 Calculation of the equilibrium temperature.|problem|seniso|2001-08-24 16:20:16|2001-10-30 22:16:59|mmp@msu|default
Surface Area|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd318.problem|tungsten,temperature,watt,emissivity,surface|current||Calculation of the surface area of a tungsten filament.|problem|seniso|2001-08-24 16:20:33|2001-10-30 22:18:31|mmp@msu|default
Ratio|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd318a.problem|temperatures,heat,work,conductivity,degree,temperature,ratio,flow|current||Problem:
 Calculate the ratio of the flow of heat.|problem|seniso|2001-08-24 16:20:55|2001-10-30 22:23:36|mmp@msu|default
Value of K|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/problems/cd318b.problem|temperatures,heat,degrees,temperature,flow,thermal,effective,conductivity|current||Problem:
 Calculation of the effective thermal conductivity for a boiler wall.|problem|seniso|2001-08-24 16:21:20|2001-10-30 22:26:18|mmp@msu|default
Chapter Frontpage Heat|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Heat|/res/msu/mmp/kap11/cd293.htm|heat,chapter|current||Chapter 11 frontpage.|htm|seniso|2001-08-24 16:07:01|2001-11-05 17:41:27|mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Heat|/res/msu/mmp/kap11/example.gif||current|||gif|seniso|2001-08-24 16:16:59|2001-08-24 16:16:59|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Heat Preview|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/kap11/Preview.html|heat|current|||html|seniso|2001-08-25 12:34:57|2001-08-25 12:34:57|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/demo/cd321.htm|video,liquids,milk,clip,irreversible,processes,irreversibly,entropy,process|current|||htm|seniso|2001-08-24 16:23:31|2001-08-24 16:23:31|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/demo/cd336.htm|isotherm,gas,cylinder,isotherms,adiabat,video,engine,heat,cycle,carnotcycle,phase,carnot|current|||htm|seniso|2001-08-24 16:24:09|2001-08-24 16:24:09|mmp@msu (Michigan State University)|default
Carnot Cycle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/der/cd3361.htm|carnot,cycle,derivation|current||Carnot cycle derivation.|htm|seniso|2001-11-16 16:26:02|2001-11-16 16:26:02|mmp@msu (Michigan State University)|default
Carnot Cycle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/der/cd3411.htm|carnot,cycle,derivation|current||Carnot cycle derivation.|htm|seniso|2001-11-16 16:33:37|2001-11-16 16:33:37|mmp@msu (Michigan State University)|default
Entropy Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropy_eqn.gif||current|||gif|seniso|2001-11-14 19:30:41|2001-11-14 19:30:41|mmp@msu (Michigan State University)|default
Entropy Intergral|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/int_eqn.gif||current|||gif|seniso|2001-11-14 20:13:22|2001-11-14 20:13:22|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/sigma_eqn.gif||current|||gif|seniso|2001-11-14 20:13:48|2001-11-14 20:13:48|mmp@msu (Michigan State University)|default
Entropy Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropy_eqn2.gif||current|||gif|seniso|2001-11-14 20:18:25|2001-11-14 20:18:25|mmp@msu (Michigan State University)|default
Entropy Equation 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropy_eqn3.gif||current|||gif|seniso|2001-11-14 20:20:58|2001-11-14 20:20:58|mmp@msu (Michigan State University)|default
Entropy Equation 4|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropy_eqn4.gif||current|||gif|seniso|2001-11-14 21:31:19|2001-11-14 21:31:19|mmp@msu (Michigan State University)|default
Work Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/work_eqn.gif||current|||gif|seniso|2001-11-14 21:35:10|2001-11-14 21:35:10|mmp@msu (Michigan State University)|default
Entropy Equation 5|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropy_eqn5.gif||current|||gif|seniso|2001-11-14 21:38:08|2001-11-14 21:38:08|mmp@msu (Michigan State University)|default
Entropy Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropy_eqn6.gif||current|||gif|seniso|2001-11-14 21:41:54|2001-11-14 21:41:54| mmp@msu (Michigan State University)|default
Entropy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropyH_eqn.gif||current|||gif|seniso|2001-11-16 16:07:13|2001-11-16 16:07:13|mmp@msu (Michigan State University)|default
Entropy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropyL_eqn.gif|entropy,heat, transfer|current||Equation for the entropy change in a heat transfer for the block at the lower temperature.|gif|seniso|2001-11-16 16:16:32|2001-11-16 16:16:32|mmp@msu (Michigan State University)|default
Entropy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropychange_eqn.gif||current||Equation for the total entropy change in a heat transfer problem for a thermodynamic
 system.|gif|seniso|2001-11-16 16:17:36|2001-11-16 16:17:36|mmp@msu (Michigan State University)|default
Entropy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/entropychange_eqn2.gif||current||Equation for the total entropy change in a heat transfer problem for a thermodynamic
 system.|gif|seniso|2001-11-16 16:18:25|2001-11-16 16:18:25|mmp@msu (Michigan State University)|default
model engine|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/modelengine.gif||current|||gif|seniso|2001-11-26 09:04:35|2001-11-26 09:04:35|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Model Refrigerator|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics|/res/msu/mmp/kap12/picts/modelrefrigerator.gif||current|||gif|seniso|2001-11-26 09:05:12|2001-11-26 09:05:12|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Thermodynamics|/res/msu/mmp/kap12/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Thermodynamics| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap12/kap12.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd321.htm|heat,energy,fundamental,law,laws,entropy,conservation,thermodynamics|current||Introduction to thermodynamics for introductory physics.|htm|seniso|2001-07-24 12:21:17|2001-11-24 21:13:04|mmp@msu (Michigan State University)|default
Definitions of Terms in Thermodynamical Systems|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics, Terminology|/res/msu/mmp/kap12/cd322.htm|gas,definitions,heat,system,pvnkt,temperature,boundary,bath,irreversible,isolated,reservoir,capacity,thermodynamic,thermodynamics,boundaries,process|current||Definitions of terms regarding thermodynamical systems.|htm|seniso|2001-07-24 14:55:26|2001-11-24 21:14:09|mmp@msu (Michigan State University)|default
First Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd323.htm|gas,heat,isometric,helmholtz,energy,isobaric,work,adiabatic,temperature,pressure,mechanical,law,volume,conservation,thermodynamic,thermodynamics,transfer,isothermal|current||Introduction to the 1st law of thermodynamics.|htm|seniso|2001-07-24 14:55:53|2001-11-24 21:14:58|mmp@msu (Michigan State University)|default
Volume Change and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd324.htm|gas,cylinder,work,force,compresses,piston,volume,displacement|current||The relationship between the volume change and work for a system.|htm|seniso|2001-07-24 14:56:53|2001-11-24 21:19:50|mmp@msu (Michigan State University)|default
Isobaric Process|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd325.htm|gas,heat,isobar,isobaric,work,ideal,pressure,processes,constant,process|current||Explanation of an isobaric process for a thermodynamic system.|htm|seniso|2001-07-24 14:57:14|2001-11-16 16:25:08|mmp@msu (Michigan State University)|default
Example: Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd326.htm|heat,energy,isobaric,work,temperature,pressure,boil,latent,piston,volume,steam,thermodynamics|current||Example calculating the work done in an isobaric process.|htm|seniso|2001-08-25 16:11:55|2001-11-14 21:56:39|mmp@msu (Michigan State University)|default
Isothermal Process|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics |/res/msu/mmp/kap12/cd327.htm|gas,heat,energy,work,ideal,diagram,temperature,pressure,bath,reservoir,volume,capacity,isothermal,process|current||Explanation of an isothermal process for a thermodynamic system.  Includes an
 applet that helps to visualize the ideal gas law.|htm|seniso|2001-07-24 14:57:30|2001-11-14 16:46:41|mmp@msu (Michigan State University)|default
Work done on Isotherm|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd328.htm|gas,expansion,work,ideal,temperature,volume,compression,isothermal|current||Explanation of the work done by an ideal gas during isothermal processes.|htm|seniso|2001-08-25 16:13:48|2001-11-14 21:57:33|mmp@msu (Michigan State University)|default
Isometric Process|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd329.htm|heat,isometric,work,mechanical,volume,process|current||Explanation of an isometric process for a thermodynamic system.|htm|seniso|2001-07-24 14:57:53|2001-11-24 21:21:38|mmp@msu (Michigan State University)|default
Adiabatic Process|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics |/res/msu/mmp/kap12/cd330.htm|heat,work,combustion,adiabatic,thermal,insulation,processes,engine,process|current||Definition of an adiabatic process for a thermodynamic system -
 1st law of thermodynamics for an adiabatic process and
 the conditions for which an adiabatic process can occur.|htm|seniso|2001-07-24 14:58:12|2001-11-24 21:24:59|mmp@msu (Michigan State University)|default
Adiabatic Process for Ideal Gas|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd331.htm|isotherm,gas,gases,ideal,adiabatic,monoatomic,pressure,adiabat,specific,volume,heats,isothermal,process|current||Introduction to adiabatic processes for ideal gases in thermodynamic systems.
 Includes a graph illustrating an adiabat and an isotherm.|htm|seniso|2001-07-24 14:58:27|2001-11-18 20:06:35|mmp@msu (Michigan State University)|default
Free Expansion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd332.htm|gas,heat,equilibrium,insulated,energy,expansion,work,ideal,temperature,thermally,free,processes,internal,process,expand|current||Introduction to a free expansion process for a thermodynamic system.|htm|seniso|2001-07-24 14:58:47|2001-11-24 21:28:51|mmp@msu (Michigan State University)|default
Second Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd333.htm|heat,equilibrium,helmholtz,energy,work,efficiency,molecules,temperature,perpetual,thermal,law,perpetuum,carnot,entropy,engine,conservation,relativity,thermodynamics,transfer|current||Introduction to the 2nd law of thermodynamics.|htm|seniso|2001-07-24 14:58:59|2001-11-24 21:29:41|mmp@msu (Michigan State University)|default
Engines |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd334.htm|heat,cycle,work,efficiency,temperature,th,reservoir,engine,thermodynamics,engines,cycles|current||Introduction to engines and efficiencies for thermodynamic systems.|htm|seniso|2001-07-24 15:12:35|2001-11-26 09:11:13|mmp@msu (Michigan State University)|default
Refrigerators|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd335.htm|heat,joules,colder,refrigerator,work,cool,joule,temperature,kinetic,refrigerators,reservoir,cooler,engines,cycles|current||Explanation of the work done by a refrigerator as a function of heat exchange.
 And it's performance as a function of the work done and the heat exchanged. |htm|seniso|2001-07-24 15:13:22|2001-11-26 09:11:35|mmp@msu (Michigan State University)|default
Carnot Cycle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd336.htm|isotherm,temperatures,refrigerator,cycle,work,performance,adiabatic,efficiency,temperature,adiabat,th,carnot,engine,isothermal|current||Introduction to the Carnot cycle.  Includes a derivation of the efficiency of a
 Carnot engine and a demonstration of the Carnot cycle.|htm|seniso|2001-08-25 16:23:10|2001-11-14 22:03:21|mmp@msu (Michigan State University)|default
Example: Carnot Cycle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd337.htm|temperatures,cycle,efficiency,carnot,power,engine,thermodynamics|current||Example using the concepts of the Carnot cycle for thermodynamic systems.|htm|seniso|2001-08-25 16:23:43|2001-11-14 22:04:41|mmp@msu (Michigan State University)|default
Entropy, |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics, |/res/msu/mmp/kap12/cd338.htm|heat,cycle,adiabatic,efficiency,carnot,reversible,processes,entropy,cycles|current||Introduction to change in entropy of thermodynamic systems.|htm|seniso|2001-07-24 15:13:42|2001-11-14 22:05:36|mmp@msu (Michigan State University)|default
Irreversible Processes|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd339.htm|path,independent,irreversible,processes,entropy,process|current||Explanation of the entropy change in an irreversible process.|htm|seniso|2001-08-25 16:26:10|2001-11-24 21:31:41|mmp@msu (Michigan State University)|default
Entropy Change for Free Expansion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd340.htm|gas,expansion,ideal,temperature,spontaneously,free,irreversible,reversible,entropy,volume,isothermal|current||Explanation of the entropy change during a free expansion process.|htm|seniso|2001-07-24 15:14:13|2001-11-23 08:35:33|mmp@msu (Michigan State University)|default
Entropy Change in Heat Transfer|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd341.htm|masses,temperatures,heat,equilibrium,hotter,temperature,capacities,conduction,specific,mass,calorimetry,irreversible,reservoir,reversibly,entropy,capacity,transfer,process|current||Explanation of how to calculate the entropy change in heat transfer problem
 for thermodynamic systems.|htm|seniso|2001-08-25 16:28:58|2001-11-16 16:22:31|mmp@msu (Michigan State University)|default
Example: Entropy Change|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd342.htm|masses,temperatures,heat,equilibrium,insulated,temperature,thermal,specific,mass,entropy,heats|current||Example calculating the entropy change during a heat transfer process.|htm|seniso|2001-08-25 16:30:02|2001-11-14 22:09:26|mmp@msu (Michigan State University)|default
Example: Free Expansion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd343.htm|gas,moles,free,expansion,entropy,expands,volume,ideal,process|current||Example calculating the entropy change in a free expansion process of an ideal
 gas.|htm|seniso|2001-08-25 16:30:35|2001-11-16 15:33:38|mmp@msu (Michigan State University)|default
Entropy and the Second Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd344.htm|system,energy,universe,spontaneously,processes,entropy,increase,subsystem,thermodynamic,thermodynamics,process|current||Formulation of the 2nd law of thermodynamics in terms of entropy. |htm|seniso|2001-07-24 15:14:59|2001-11-24 21:33:27|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd357.htm|gas,temperatures,heat,isothemal,equilibrium,energy,isobaric,cycle,expansion,work,ideal,adiabatic,pump,temperature,irreversible,reversible,cooled,entropy,thermodynamic,thermodynamics|current||True false practice for the chapter on thermodynamics.|htm|seniso|2001-08-25 16:31:55|2001-11-24 21:35:10|mmp@msu (Michigan State University)|default
Thermodynamics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap12/sum12.htm|gas,heat,isometric,refrigerator,isobaric,cycle,work,ideal,adiabatic,efficiency,coefficient,carnot,entropy,engine,thermodynamics,isothermal,process|current|||htm|seniso|2001-08-25 16:32:53|2001-08-25 16:32:53|mmp@msu (Michigan State University)|default
Efficiency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd345.problem|heat,energy,work,efficiency,exhausts,exhausted,absorbed,engine,thermodynamics|current||Problem:
 Calculation of the efficiency of a heat engine.|problem|seniso|2001-08-24 16:25:12|2001-11-24 21:36:17|mmp@msu|default
Efficiency 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd346.problem|temperatures,heat,cycle,efficiency,idealgas,temperature,carnot|current||Problem:
 Calculation of the efficiency of an ideal-gas heat engine.|problem|seniso|2001-08-24 16:25:34|2001-11-24 21:37:24|mmp@msu|default
Entropy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd347.problem|heat,energy,absorbs,temperature,conduction,thermal,reservoirs,reservoir,entropy|current||Problem:
 Calculation of the change in total energy in a metal wire.|problem|seniso|2001-08-24 16:25:55|2001-11-24 21:38:41|mmp@msu|default
Efficiency 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd348.problem|heat,energy,work,efficiency,friction,engine,thermodynamics|current||Problem:
 Calculation of the efficiency of a heat engine.|problem|seniso|2001-08-24 16:26:32|2001-11-24 21:39:46|mmp@msu|default
Entropy 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd349.problem|temperatures,heat,equilibrium,temperature,water,specific,calorimetry,entropy,capacity,transfer|current||Problem:
 Calculation of the change in entropy when two liquids are mixed.|problem|seniso|2001-08-24 16:26:56|2001-12-04 01:01:58|mmp@msu|default
Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd350.problem|gas,heat,isobaric,work,pressure,isobarically,volume,solution,expand|current||Ptoblem:
 Calculation of the owrk done on a system that expands isobarically.|problem|seniso|2001-08-24 16:27:38|2001-11-24 21:43:24|mmp@msu|default
Work 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd351.problem|heat,cycle,work,pressure,engine|current||Problem:
 Calculation of the work done by a heat engine.|problem|seniso|2001-08-24 16:27:58|2001-12-02 09:39:32|mmp@msu|default
Volume|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd352.problem|gas,expansion,ideal,adiabatic,monatomic|current||Calculation of the second volume point on an adiabat diagram.|problem|seniso|2001-08-24 16:28:21|2001-11-24 22:06:28|mmp@msu|default
Entropy 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd353.problem|heat,energy,temperature,collide,kinetic,entropy,process|current||Problem:
 Calculation of the entropy change in head-on collision.|problem|seniso|2001-08-24 16:28:49|2001-11-24 22:08:02|mmp@msu|default
Work 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd354.problem|heat,work,ideal,efficiency,carnot,engine,thermodynamics|current||Problem:
 Calculation of the work done by an ideal Carnot engine.|problem|seniso|2001-08-24 16:29:16|2001-11-24 22:09:01|mmp@msu|default
Heat|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd355.problem|efficiency,energy,heat,internal,system,thermodynamic,thermodynamics,work|current||Problem:
 Calculation of the amount of heat released during a workout.|problem|seniso|2001-08-24 17:29:39|2002-09-02 13:49:38|mmp@msu|default
Entropy 4|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/problems/cd356.problem|temperature,metabolic,watt,power,entropy|current||Problem:
 Calculation of the rate of entropy change. |problem|seniso|2001-08-24 16:30:05|2001-11-24 22:16:42|mmp@msu|default
Entropy -- non-calculus version|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Thermodynamics, |/res/msu/mmp/kap12/cd338nc.htm|heat,cycle,adiabatic,efficiency,carnot,processes,entropy,cycles|current||Introduction to the change in entropy of thermodynamic systems -- non-calculus
 version.|htm|seniso|2001-07-24 15:14:00|2001-11-14 22:06:31|mmp@msu (Michigan State University)|default
Entropy Change for a Free Expansion Process -- non-calculus version|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd340nc.htm|gas,expansion,work,ideal,molecules,spontaneously,free,irreversible,entropy,volume,inverse,isothermal,process|current||Explanation of the entropy change for a free expansion process -- non-calculus version.|htm|seniso|2001-07-24 15:14:33|2001-11-14 22:08:15|mmp@msu (Michigan State University)|default
Chapter Front Page Thermodynamics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd320.htm|thermodynamics|current||Chapter Front Page Thermodynamics|htm|seniso|2001-08-25 16:04:55|2001-11-24 21:12:36|mmp@msu (Michigan State University)|default
1st Law of Thermodynamics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd323nc.htm|gas,heat,isometric,energy,isobaric,work,ideal,adiabatic,temperature,pressure,volume,conservation,thermodynamic,thermodynamics,isothermal|current||Introduction to the 1st law of thermodynamics.|htm|seniso|2001-08-25 16:07:56|2001-11-24 21:16:19|mmp@msu (Michigan State University)|default
Volume Change and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd324nc.htm|gas,compress,work,force,piston,volume,displacement|current||The relationship between the volume change and work for a system.|htm|seniso|2001-08-25 16:09:36|2001-11-24 21:20:05|mmp@msu (Michigan State University)|default
Isobaric Process-- Non-Calculus Version|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd325nc.htm|gas,heat,isobaric,ideal,pressure,processes,constant,process|current||Explanation of an isobaric process for thermodynamic systems.|htm|seniso|2001-08-25 16:11:12|2001-11-12 16:03:25|mmp@msu (Michigan State University)|default
Isothermal Process-- non-calculus version|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd328nc.htm|gas,expansion,work,ideal,volume,compression,isothermal|current||Explanation of the work done by an ideal gas during isothermal processes -- 
 non-calculus version.|htm|seniso|2001-08-25 16:14:37|2001-11-14 21:58:22|mmp@msu (Michigan State University)|default
Isometric Process|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap12/cd329nc.htm|heat,isometric,work,excitation,mechanical,volume,process|current||Explanation of an isometric process for a thermodynamic system.|htm|seniso|2001-08-25 16:15:57|2001-11-24 21:23:39|mmp@msu (Michigan State University)|default
Thermodynamics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap12/calckap12.sequence||current|||sequence|seniso|2001-11-28 18:06:20|2002-04-22 16:36:57|mmp@msu (Michigan State University)|default
Demo Vibrations and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/demo/cd363.htm|pendulum,period,pendulums,video|current|||htm|seniso|2001-08-25 13:00:19|2001-08-25 13:00:19|mmp@msu (Michigan State University)|default
Demo: Vibrations and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/demo/cd3630.htm|shm,pendulum|current|||htm|seniso|2001-08-25 13:00:58|2001-08-25 13:00:58|mmp@msu (Michigan State University)|default
Demo: Vibrations and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/demo/cd363a.htm|pendulum,periods,period,acceleration,video|current|||htm|seniso|2001-08-25 13:01:33|2001-08-25 13:01:33|mmp@msu (Michigan State University)|default
Demo: Vibration and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/demo/cd369.htm|masses,simulation,transverse,waves,wave|current|||htm|seniso|2001-08-25 13:02:15|2001-08-25 13:02:15|mmp@msu (Michigan State University)|default
Demo: Vibrations and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/demo/cd374.htm|overtones,oscillator,video,waves,string,frequency|current|||htm|seniso|2001-08-25 13:03:01|2001-08-25 13:03:01|mmp@msu (Michigan State University)|default
Spring Animation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/demo/spring.html|spring,animation|current|||html|seniso|2001-11-04 17:20:31|2001-11-04 17:20:31|mmp@msu (Michigan State University)|default
Frequency Animation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/demo/mode4.html|animation,frequency|current|||html|seniso|2001-11-04 17:29:14|2001-11-04 17:29:14|mmp@msu (Michigan State University)|default
Spring Animation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/demo/spring2.html|spring,animation|current|||html|seniso|2001-11-04 17:33:40|2001-11-04 17:33:40|mmp@msu (Michigan State University)|default
Pendulum Animation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/demo/pendulum.html|pendulum,animation|current|||html|seniso|2001-11-04 17:37:55|2001-11-04 17:37:55|mmp@msu (Michigan State University)|default
Tension Animation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/demo/mode1.html|animation,tension|current|||html|seniso|2001-11-04 17:40:11|2001-11-04 17:40:11|mmp@msu (Michigan State University)|default
Sonar Animation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/demo/sonar.html|sonar,animation|current|||html|seniso|2001-11-04 18:01:27|2001-11-04 18:01:27|mmp@msu (Michigan State University)|default
Spring Animation 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/demo/spring3.html|spring,animation|current|||html|seniso|2001-11-04 18:09:33|2001-11-04 18:09:33|mmp@msu (Michigan State University)|default
Derivation, Vibrations and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/der/cd3631.htm||current|||htm|seniso|2001-08-25 13:13:22|2001-08-25 13:13:22|mmp@msu (Michigan State University)|default
Heat|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Thermodynamics|/res/msu/mmp/kap13/picts/Intro.gif||current|||gif|seniso|2001-07-24 21:10:09|2001-07-25 14:16:49|mmp@msu|default
Top Level Sequence for Champ+ 2001|Ed Kashy|Pre-college Math using Physics|/res/msu/mmp/kap13/picts/osc1.jpg||current||Ingham County (MI) Intermidiate School District program for middle 
 and high schools at Michigan State University |jpg|seniso|2001-07-25 09:51:53|2001-07-25 15:23:59|kashy@msu|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/velocity_eqn.gif||current|||gif|seniso|2001-11-18 19:31:41|2001-11-18 19:31:41|mmp@msu (Michigan State University)|default
Maximum Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/velocitymax_eqn.gif||current|||gif|seniso|2001-11-18 19:42:37|2001-11-18 19:42:37|mmp@msu (Michigan State University)|default
Spring Constant Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/k_eqn.gif||current||Spring constant equation for SHM. |gif|seniso|2001-11-18 19:49:40|2001-11-18 19:49:40|mmp@msu (Michigan State University)|default
Period|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/period_eqn.gif||current||Period equation for SHM.|gif|seniso|2001-11-18 19:56:06|2001-11-18 19:56:06|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/omega_eqn.gif||current|||gif|seniso|2001-11-18 20:01:11|2001-11-18 20:01:11|mmmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/omega1_eqn.gif||current|||gif|seniso|2001-11-18 20:03:18|2001-11-18 20:03:18|mmp@msu (Michigan State University)|default
Period Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/period_eqn1.gif||current||Equation used to determine the period of a simple pendulum.|gif|seniso|2001-11-19 15:18:57|2001-11-19 15:18:57|mmp@msu (Michigan State University)|default
Period Equation| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/period_eqn3.gif|period,pendulum, harmonic, motion|current||Equation used to find the period of a simple pendulum.|gif|seniso|2001-11-19 15:28:30|2001-11-19 15:28:30|mmp@msu (Michigan State University)|default
Length Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/length_eqn.gif|length,pendulum, harmonic, motion|current||Equation used to solve find the length of a simple pendulum.|gif|seniso|2001-11-19 15:32:50|2001-11-19 15:32:50|mmp@msu (Michigan State University)|default
Pendulum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/theta_eqn.gif|pendlum,motion, harmonic|current||Equation of motion for a simple pendulum.|gif|seniso|2001-11-19 15:38:06|2001-11-19 15:38:06|mmp@msu (Michigan State University)|default
Wavelength|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/lambda_eqn.gif|wavelength|current||Equation for the wavelength of a string.|gif|seniso|2001-11-19 16:19:23|2001-11-19 16:19:23|mmp@msu (Michigan State University)|default
Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/frequency_eqn.gif|frequency|current||Equation for the frequency of a string.|gif|seniso|2001-11-19 16:20:15|2001-11-19 16:20:15|mmp@msu (Michigan State University)|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/velocity_eqn1.gif||current|||gif|seniso|2001-11-19 16:29:30|2001-11-19 16:29:30|mmp@msu (Michigan State University)|default
Natural Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/natfreq_eqn.gif|natural,frequency, wave, string|current||Equation for the natural frequency of a wave on a string.|gif|seniso|2001-11-19 16:33:34|2001-11-19 16:33:34|mmp@msu (Michigan State University)|default
Simple Harmonic Motion Equations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/shm_eqn.gif||current||Simple harmonic motion equations.|gif|seniso|2001-11-24 23:03:05|2001-11-24 23:13:06|mmp@msu (Michigan State University)|default
Equation of Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/eom_eqn.gif|equation,motion, SHM|current||Equation of motion for an object undergoing SHM.|gif|seniso|2001-11-24 23:12:18|2001-11-24 23:12:18|mmp@msu (Michigan State University)|default
Linear Mass Density Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/mu_eqn.gif|linear,mass, density|current||Equation for the linear mass density of a string.|gif|seniso|2001-11-25 01:02:35|2001-11-25 01:02:35|mmp@msu (Michigan State University)|default
Wave Velocity |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/wavevelocity_eqn.gif|string,wave, velocity, tension, linear, mass, density|current||Equation for the wave velocity of a string.|gif|seniso|2001-11-25 01:08:12|2001-11-25 01:08:12|mmp@msu (Michigan State University)|default
Wave Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/wavevelocity_eqn1.gif|wave,velocity, string, tension, linear, mass, density|current||Equation for the wave velocity of a string.|gif|seniso|2001-11-25 01:11:00|2001-11-25 01:11:00|mmp@msu (Michigan State University)|default
Natural Frequency Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/picts/natfreq_eqn1.gif|natural,frequency|current|||gif|seniso|2001-11-25 01:16:49|2001-11-25 01:16:49|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Vibrations and Waves|/res/msu/mmp/kap13/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Vibrations and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap13/kap13.sequence||current|||sequence|seniso|2002-03-07 15:45:12|2002-04-03 12:45:46|mmp@msu (Michigan State University)|default
Introduction |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves |/res/msu/mmp/kap13/cd358a.htm|pendulum,oscillators,motion,oscillation,electromagnetic,force,periodic,waves,wave,string,vibrations,oscillates,oscillations|current||Introduction to oscillations and waves for introductory physics.|htm|seniso|2001-07-25 14:16:13|2001-11-24 22:48:35|mmp@msu (Michigan State University)|default
Simple Harmonic Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd359.htm|shm,oscillating,oscillation,period,cycle,force,amplitude,periodic,spring,harmonic,displacement,hz,frequency|current||Introduction to and illustration of simple harmonic motion.|htm|seniso|2001-08-25 12:37:39|2001-11-24 22:54:41|mmp@msu (Michigan State University)|default
Energy and Speed in SHM |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves |/res/msu/mmp/kap13/cd360.htm|oscillating,equilibrium,oscillators,energy,stretched,compressed,oscillator,amplitude,stored,spring,potential,harmonic,displacement,velocity|current||Relationship between energy and speed in simple harmonic motion.|htm|seniso|2001-07-24 21:13:37|2001-11-18 19:44:23|mmp@msu (Michigan State University)|default
Equations of Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd361.htm|shm,oscillatory,motion,oscillation,period,angular,phase,position,sinusoidal,harmonic,displacement,velocity,frequency|current||Equations of motion for an object undergoing SHM.|htm|seniso|2001-07-25 15:00:34|2001-11-24 23:15:37|mmp@msu (Michigan State University)|default
Applet: Mass on a Spring|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd361a.htm|oscillators,simulation,oscillator,amplitude,applet,spring,oscillations|current||Mass on a spring applet.|htm|seniso|2001-08-25 12:39:53|2001-11-24 23:17:58|mmp@msu (Michigan State University)|default
Example: Mass on a Spring |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd362.htm|oscillation,period,mass,spring,displacement|current||Example of a mass on a spring.|htm|seniso|2001-07-25 15:01:15|2001-11-18 20:06:01|mmp@msu (Michigan State University)|default
SHM for a Pendulum |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd363.htm|shm,pendulum,motion,period,amplitude,acceleration,spring,harmonic,displacement,oscillations|current||Swinging of a simple pendulum as an example of SHM. |htm|seniso|2001-07-25 15:01:31|2001-11-24 14:55:28|mmp@msu (Michigan State University)|default
Example: Pendulum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd363b.htm|pendulum,oscillate,length,cycles|current||Example calculating the lenght of a pendulum.|htm|seniso|2001-08-25 12:46:53|2001-11-19 15:34:49|mmp@msu (Michigan State University)|default
Applet: Pendulum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd363a.htm|pendulum,applet,harmonic|current||Applet simulating the harmonic motion of a pendulum.|htm|seniso|2001-08-25 12:46:31|2001-11-18 20:12:04|mmp@msu (Michigan State University)|default
Initial Conditions and Phase|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd364.htm|shm,motion,sine,phase,oscillator,conditions,cosine,harmonic,displacement,velocity,frequency|current||Relationship between the sine and cosine equations of motion for SHM.|htm|seniso|2001-07-25 15:01:56|2001-11-24 23:19:15|mmp@msu (Michigan State University)|default
Velocity and Acceleration in SHM|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd365.htm|shm,angular,acceleration,harmonic,displacement,velocity,frequency|current||This page defines velocity and acceleration in simple harmonic motion.  Includes
 a diagram that shows he relationship between displacement, velocity, and acceleration.
 |htm|seniso|2001-07-25 15:02:18|2001-11-19 15:46:43|mmp@msu (Michigan State University)|default
Example: Equation of Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd366.htm|period,amplitude,harmonic,displacement,frequency|current||Example calculating the equation of motion of an object undergoing simple
 harmonic motion.|htm|seniso|2001-08-25 12:48:29|2001-11-19 15:50:27|mmp@msu (Michigan State University)|default
Damped Harmonic Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd367.htm|motion,oscillation,damping,force,amplitude,damped,friction,spring,harmonic,displacement,exponentially|current||Introduction to damped harmonic motion. Includes a graph of harmonic motion with
 damping.|htm|seniso|2001-07-25 15:02:30|2001-11-24 23:27:25|mmp@msu (Michigan State University)|default
Wave Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd368.htm|oscillating,oscillators,motion,propagates,transport,disturbance,mechanical,oscillator,amplitude,applet,periodic,video,sinusoidal,wave,medium|current||Introduction to wave motion. Includes a coupled oscillator applet.|htm|seniso|2001-07-25 15:03:22|2001-11-24 23:30:06|mmp@msu (Michigan State University)|default
Wave Characteristics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd369.htm|vibrating,electromagnetic,wavelength,transverse,phase,amplitude,longitudinal,waves,wave,sound,intensity,velocity,frequency,oscillations|current||Equations for the position of a wave in time and also an introduction to 
 transverse and longitudinal waves.|htm|seniso|2001-07-25 15:03:41|2001-11-19 15:56:05|mmp@msu (Michigan State University)|default
Superposition and Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd370.htm|constructive,superposition,displacements,destructive,wavelength,interfering,phase,amplitude,amplitudes,waves,waveform,interference,interfere|current||Introduction to the principle of superposition and constructive/destructive
 interference.|htm|seniso|2001-07-25 15:06:16|2001-11-24 23:34:04|mmp@msu (Michigan State University)|default
Applet: Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Interference and Diffraction|/res/msu/mmp/kap13/cd371.htm|constructive,circular,applet,interference|current||Applet were you can study the interference pattern generated by two circular waves.|htm|seniso|2001-07-25 15:06:33|2001-11-19 16:12:43|mmp@msu (Michigan State University)|default
Reflection Refraction and Diffraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd372.htm|reflected,boundary,diffraction,angle,waves,wave,wavelength,light,diffracted,reflection,refraction,refracted,medium,phase|current||Introduction to diffraction, reflection and and refraction of waves.|htm|seniso|2001-08-25 12:54:27|2001-11-19 16:13:57|mmp@msu (Michigan State University)|default
Standing Waves and Resonances|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd373.htm|resonances,frequencies,motion,oscillate,vibration,wavelength,construct,resonance,periodic,waves,nodes,interfere,antinodes,displacement,frequency|current||Introduction to standing waves for introductory physics. Includes a demonstration
 of standing waves.|htm|seniso|2001-08-25 12:55:06|2001-11-24 23:36:25|mmp@msu (Michigan State University)|default
Natural Frequencies of Strings|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd374.htm|strings,natural,frequencies,integer,vibration,length,wavelength,instrument,node,string,velocity|current||Explanation of wavelengths and natural frequencies of strings.|htm|seniso|2001-08-25 12:56:01|2001-11-19 16:22:30|mmp@msu (Michigan State University)|default
Harmonics of Strings|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd375.htm|strings,frequencies,instrument,vibrate,harmonics,sound,string,harmonic,frequency|current||Animations of a string vibrating in its first (fundamental),second, third, and
 fourth harmonic.|htm|seniso|2001-08-25 12:56:55|2001-11-19 16:24:00|mmp@msu (Michigan State University)|default
Calculation of Natural Frequencies|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd376.htm|strings,frequencies,waves,wave,string,velocity|current||Calculation of the natural frequencies of waves on strings.|htm|seniso|2001-08-25 12:57:30|2001-11-19 16:36:26|mmp@msu (Michigan State University)|default
Example: Natural Frequencies|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd376a.htm|natural,frequencies,tension,mass,harmonics,wave,linear,density,string,hz,velocity|current||Example calculating the 1st four harmonics of a string.|htm|seniso|2001-08-25 12:57:59|2001-11-25 01:18:27|mmp@msu (Michigan State University)|default
Fourier Series|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd377.htm|frequencies,superposition,fourier,fundamental,periodic,harmonics,waves,wave,harmonic,frequency|current||Introduction to Fourier Series.|htm|seniso|2001-08-25 12:58:23|2001-11-25 01:19:24|mmp@msu (Michigan State University)|default
Fourier Approximation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd378.htm|summed,fourier,series,harmonics,wave|current||Two illustrations that depict the evolution of a wave form as more
 harmonics are summed to make a triangular and a square wave.|htm|seniso|2001-08-25 12:58:59|2001-11-25 01:21:08|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd391.htm|shm,pendulum,oscillating,equilibrium,period,energy,length,proportional,wavelengths,amplitude,wave,string,harmonic,oscillates,frequency|current||True False Practice for the chapter on vibrations and waves.|htm|seniso|2001-08-25 12:59:28|2001-11-25 01:25:36|mmp@msu (Michigan State University)|default
Waves and Vibrations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap13/sum13.htm|shm,pendulum,frequencies,motion,period,angular,acceleration,waves,wave,vibrations,potential,harmonic,displacement,summary,velocity,frequency|current||Vibrations and waves summary page.|htm|seniso|2001-08-25 13:04:05|2001-11-25 01:26:42|mmp@msu (Michigan State University)|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd379.problem|shm,oscillating,system,equilibrium,joules,energy,kinetic,mass,spring,potential,horizontal,velocity|current||Problem:
 Calculation of the total energy in a spring system.|problem|seniso|2001-08-25 13:04:43|2001-11-04 17:22:35|mmp@msu (Michigan State University)|default
Driving Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd380.problem|frequencies,wavelength,standing,wave,frequency|current||Problem:
 Calculation of the driving frequency in a standing wave.|problem|seniso|2001-08-25 13:05:23|2001-11-25 01:30:23|mmp@msu|default
Displacement|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd381.problem|motion,distance,mg,angular,mgx,equilibium,suspended,spring,displacement,frequency|current||Problem:
 Calculation of the displacement from equilibrium of a mass on a spring.|problem|seniso|2001-08-25 13:05:55|2001-11-04 18:28:42|mmp@msu|default
Period|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd382.problem|shm,pendulum,period|current||Problem:
 Calculation of the period of a pendulum.|problem|seniso|2001-08-25 13:06:37|2001-11-04 18:29:27|mmp@msu|default
Tension|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd383.problem|vibrates,tension,fundamental,hz,frequency|current||Problem:
 Calculation of the tension in a string.|problem|seniso|2001-08-25 13:07:00|2001-11-04 18:30:02|mmp@msu|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd384.problem|sonar,ultrasonic,distance,wavelength,echo,waves,wave,depth,velocity,frequency|current||Problem:
 Calculation of the depth of the ocean.|problem|seniso|2001-08-25 13:07:28|2001-11-04 18:30:40|mmp@msu|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd385.problem|harmonic,displacement,oscillates|current|||problem|seniso|2001-08-25 13:08:04|2001-11-04 18:31:13|mmp@msu|default
Largest Amplitude|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd386.problem|gravitational,force,frictionless,amplitude,acceleration,static,displaced,coefficient,friction,spring,harmonic,displacement|current||Problem:
 Calculation of the amplitude of a block that is connected to a spring.
 |problem|seniso|2001-08-25 13:08:33|2001-11-25 01:28:19|mmp@msu|default
Velocity 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd387.problem|shm,motion,harmonic,velocity|current||Calculation of the velocity of an object undergoing SHM.|problem|seniso|2001-08-25 13:09:18|2001-11-25 01:29:31|mmp@msu|default
Ratio of Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd388.problem|energy,ratio,phase,amplitude,waves,wave,wa,frequency|current||Problem:
 Calculation of the ratio of the energies of two waves.|problem|seniso|2001-08-25 13:09:43|2001-11-25 01:31:03|mmp@msu|default
Percent of Tension|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd389.problem|frequencies,violinist,percent,tension,violin,string,hz,frequency|current||Problem:
 Calculation of the percent change in tension of a violin string.|problem|seniso|2001-08-25 13:10:05|2001-11-25 01:32:11|mmp@msu|default
Wavelength|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/cd390.problem|wavelength,waves,wave,hz,velocity,frequency|current||Problem:
 Calculation of the wavelength of a wave.|problem|seniso|2001-08-25 13:10:32|2001-11-25 01:33:21|mmp@msu|default
Zero velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/osc_pict1.problem|oscillation,maxima,minima,harmonic,velocity|current||Problem:
 Find where the velocity is zero on a wave.|problem|seniso|2001-08-25 13:10:56|2001-11-25 01:34:19|mmp@msu|default
Zero acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/problems/osc_pict2.problem|oscillation,acceleration,harmonic,displacement|current||Problem:
 Find where the acceleration is zero for an object performing a regular harmonic
 oscillation.|problem|seniso|2001-08-25 13:11:43|2001-11-25 01:35:37|mmp@msu|default
Vibrations and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Vibrations and Waves|/res/msu/mmp/kap13/cd358.htm|waves,vibrations|current||Chapter frontpage for vibrations and waves.|htm|seniso|2001-08-25 12:36:32|2001-11-24 22:47:48|mmp@msu (Michigan State University)|default
Interference|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/kap13/cd371a.htm|constructive,superposition,destructive,wavelength,amplitude,principle,amplitudes,waves,interference|current||Explanation of constructive and destructive interference.|htm|seniso|2001-08-25 12:53:41|2001-11-24 23:35:32|mmp@msu (Michigan State University)|default
Vibrations and Waves|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap13/calckap13.sequence||current|||sequence|seniso|2001-11-28 18:06:38|2002-01-09 03:38:12|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Practice Appendix|/res/msu/mmp/kap15/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Practice Appendix|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap15/kap15.sequence||current|||sequence|seniso|2001-09-24 11:20:44|2001-09-24 11:20:44|mmp@msu (Michigan State University)|default
Practice Appendix|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Practice Appendix|/res/msu/mmp/kap15/cd420.htm|exams,practice|current|||htm|seniso|2001-08-25 13:58:06|2001-08-25 13:58:06|mmp@msu (Michigan State University)|default
Practice Appendix|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap15/calckap15.sequence||current|||sequence|seniso|2001-09-24 11:20:44|2001-11-28 18:07:18|mmp@msu (Michigan State University)|default
Derivation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/der/cd0281.htm||current|||htm|seniso|2001-08-24 01:45:48|2001-08-24 01:45:48|mmp@msu (Michigan State University)|default
Airplane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 1 Dimension, Pictures|/res/msu/mmp/kap2/picts/acc.gif||current||Picture of an airplane.|gif|seniso|2001-08-21 13:43:38|2001-12-04 22:04:34|mmp@msu (Michigan State University)|default
Graph of x vs. t|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/aoft1.gif||current||Graph of x vs. t|gif|seniso|2001-08-21 13:44:32|2001-12-04 22:03:32|mmp@msu (Michigan State University)|default
Acceleration graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/aoft2.gif||current||Acceleration graph (v vs. t)|gif|seniso|2001-08-21 13:45:14|2001-08-21 13:45:14|mmp@msu (Michigan State University)|default
Velocity Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/avevel.gif||current||Graph of velocity (x vs. t)|gif|seniso|2001-08-21 13:46:14|2001-08-21 13:46:14|mmp@msu (Michigan State University)|default
Runner|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/back1d.gif||current||Picture of a runner.|gif|seniso|2001-08-21 13:48:01|2001-12-04 22:05:12|mmp@msu (Michigan State University)|default
Ball|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/ball.gif||current||Upward motion of a ball.|gif|seniso|2001-08-21 13:48:30|2001-12-04 22:06:17|mmp@msu (Michigan State University)|default
Angle of Impact|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/carporb.gif||current||Graph of the angle of impact.|gif|seniso|2001-08-21 13:49:01|2001-12-04 22:04:09|mmp@msu (Michigan State University)|default
Computer Drop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/cdrop.gif||current||Picture of a computer being dropped from height h.|gif|seniso|2001-08-21 13:51:13|2001-12-04 22:05:45|mmp@msu (Michigan State University)|default
Ball Drop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/cliff.gif||current||Picture of a ball drop.|gif|seniso|2001-08-21 13:52:16|2001-12-04 22:07:10|mmp@msu (Michigan State University)|default
Components of Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/fig1.gif||current||Velocity components: vx and vy|gif|seniso|2001-08-21 13:52:53|2001-08-21 13:52:53|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Velocity Components|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/fig11.gif||current||Velocity components of rain as it hits your car|gif|seniso|2001-08-24 15:00:15|2001-08-24 15:00:15|mmp@msu (Michigan State University)|default
Projectile|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/range.gif||current||Picture of the height and range of a projectile.|gif|seniso|2001-12-04 22:34:52|2001-12-04 22:34:52|mmp@msu (Michigan State University)|default
Airplane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/plane.gif||current||Picture of an airplane.|gif|seniso|2001-12-04 22:30:34|2001-12-04 22:30:34|mmp@msu (Michigan State University)|default
Professor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/student.gif||current||Picture of a professor.|gif|seniso|2001-12-04 22:31:23|2001-12-04 22:31:23|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/xt.gif||current||Graph of displacement vs. time.|gif|seniso|2001-12-04 22:07:58|2001-12-04 22:07:58|mmp@msu (Michigan State University)|default
Race car|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/racecar.gif||current||Picture of a race car.|gif|seniso|2001-12-04 22:35:44|2001-12-04 22:35:44|mmp@msu (Michigan State University)|default
Vector X|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/particle.gif||current||Picture of vector x.|gif|seniso|2001-12-04 23:17:55|2001-12-04 23:17:55|mmp@msu (Michigan State University)|default
Triangle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/fig12.gif||current||Components of a triangle.|gif|seniso|2001-12-04 22:10:08|2001-12-04 22:10:08|mmp@msu (Michigan State University)|default
Vector|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/fig6.gif||current||Picture of the components of vector A|gif|seniso|2001-12-04 22:27:45|2001-12-04 22:27:45|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/voft1.gif||current||Velocity graph|gif|seniso|2001-12-04 22:14:56|2001-12-04 22:14:56|mmp@msu (Michigan State University)|default
Vector V|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/fig8.gif||current||Picture of the components of vector V.|gif|seniso|2001-12-04 23:18:35|2001-12-04 23:18:35|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/graph.gif||current||Graph of velocity at different time intervals.|gif|seniso|2001-12-04 23:19:22|2001-12-04 23:19:22|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/parabola.gif||current||Graph of velocity|gif|seniso|2001-12-04 23:37:07|2001-12-04 23:37:07|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/vtgraph.gif||current||Acceleration graph.|gif|seniso|2001-12-04 22:13:18|2001-12-04 22:13:18|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/vt.gif||current||Acceleration graph.|gif|seniso|2001-12-04 22:13:47|2001-12-04 22:13:47|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/voft2.gif||current||Velocity graph.|gif|seniso|2001-12-04 22:14:21|2001-12-04 22:14:21|mmp@msu (Michigan State University)|default
Vector B|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/vectorb.gif||current||Picture of vector B|gif|seniso|2001-12-04 22:28:44|2001-12-04 22:28:44|mmp@msu (Michigan State University)|default
A-B| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/vectamb.gif||current||Resultant vector of A-B|gif|seniso|2001-12-04 22:29:11|2001-12-04 22:29:11|mmp@msu (Michigan State University)|default
Vector A|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/vectora.gif||current||Picture of vector A|gif|seniso|2001-12-04 22:29:41|2001-12-04 22:29:41|mmp@msu (Michigan State University)|default
Student|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/picts/student2.gif||current||Picture of a student.|gif|seniso|2001-12-04 22:30:08|2001-12-04 22:30:08|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Motion in 1 Dimension|/res/msu/mmp/kap2/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Motion in 1 Dimension| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap2/kap2.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction to Motion in One Dimension|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in One Dimension |/res/msu/mmp/kap2/cd020.htm|kinematics,motion,kinematical,dimension,motions,physics,dynamics|current||Introduction to motion in one dimension|htm|seniso|2001-07-16 09:12:49|2001-08-17 16:39:01|mmp@msu (Michigan State University)|default
Introduction to Displacement , |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Displacement, Motion in One Dimension, |/res/msu/mmp/kap2/cd021.htm|direction,displacement,distance,physics|current||Introduction to displacement|htm|seniso|2001-07-16 10:21:59|2002-09-03 20:20:15|mmp@msu (Michigan State University)|default
Graphs|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/graphin1.htm|speeds,vertical,position,axis,graphs,displacement,horizontal|current||Use of graphs in physics|htm|seniso|2001-07-16 09:31:32|2001-08-21 12:41:39|mmp@msu (Michigan State University)|default
Graphs for Changing Speeds|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/graphin2.htm|speed,nonconstant,plot,accelerate,acceleration,graphs|current||Graphs for nonconstant speeds|htm|seniso|2001-07-16 09:34:49|2001-08-21 12:43:02|mmp@msu (Michigan State University)|default
Introduction to Average Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd022.htm|average,direction,displacement,physics,si,speed,vector,velocity|current||Introduction to average velocity|htm|seniso|2001-07-16 09:51:54|2002-08-12 09:01:36|mmp@msu (Michigan State University)|default
Example: Speed and Velocity |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension,|/res/msu/mmp/kap2/cd023.htm|speed,average,position,displacement,physics,velocity|current||Example using speed and velocity|htm|seniso|2001-07-16 10:05:27|2001-09-12 16:45:27|mmp@msu (Michigan State University)|default
Instantaneous Velocity |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd024.htm|calculus,instantaneous,noncalculus,speed,velocity|current||Introduction to instantaneous velocity|htm|seniso|2001-07-16 10:33:12|2002-08-12 09:49:00|mmp@msu (Michigan State University)|default
Velocity Graphs|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd025.htm|slope,graphing,average,graphs,graph,velocity|current||Introduction on how to use velocity graphs|htm|seniso|2001-08-20 20:17:15|2001-08-20 20:17:15|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Acceleration, Motion in 1 Dimension |/res/msu/mmp/kap2/cd026.htm|instantaneous,acceleration,average,velocity|current||Introduction to acceleration|htm|seniso|2001-07-16 10:38:51|2001-08-21 00:15:03|mmp@msu (Michigan State University)|default
Example: Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd027.htm|speed,direction,acceleration,average,physics,velocity|current||Acceleration example|htm|seniso|2001-08-20 21:04:42|2001-08-20 21:52:05|mmp@msu (Michigan State University)|default
Kinematic Equations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd028.htm|acceleration,time,physics,velocity,kinematic|current||List of kinematic equations|htm|seniso|2001-08-21 00:04:41|2001-09-12 16:46:07|mmp@msu (Michigan State University)|default
Acceleration Graphs|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd029.htm|acceleration,graphs,constant,physics|current||Constant acceleration graphs|htm|seniso|2001-08-20 23:28:52|2001-08-20 23:28:52|mmp@msu (Michigan State University)|default
Applet: GraphLab|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd028a.htm|kinematic|current||Graphlab applet of kinematic equations|htm|seniso|2001-07-16 13:02:36|2001-08-20 22:36:28|mmp@msu (Michigan State University)|default
Example 2: Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd031.htm|average,kinematic,physics,position,velocity|current||An example using velocity|htm|seniso|2001-07-16 14:08:11|2002-09-30 10:50:50|mmp@msu (Michigan State University)|default
Example 3: Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd032.htm|acceleration,physics,velocity,kinematic|current||Example of acceleration|htm|seniso|2001-08-21 00:01:16|2001-09-12 16:50:03|mmp@msu (Michigan State University)|default
Free Fall|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd033.htm|gravity,free,fall|current||Explanation of free fall|htm|seniso|2001-07-23 11:31:44|2001-08-21 07:18:00|mmp@msu (Michigan State University)|default
Example of Free Fall|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 1 Dimension|/res/msu/mmp/kap2/cd034.htm|acceleration,fall,free,kinematics,speed,time,velocity|current||Use of kinematics in a free fall problem|htm|seniso|2001-08-21 16:24:51|2002-09-04 20:12:23|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 1 Dimension|/res/msu/mmp/kap2/cd047.htm|distance,place,speed,accelerating,acceleration,displacement,velocity|current||True false practice for chapter 2|htm|seniso|2001-08-21 00:18:17|2001-09-06 20:04:37|mmp@msu (Michigan State University)|default
Motion in One Dimension| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Summaries|/res/msu/mmp/kap2/sum02.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Average Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd035.problem|average,distance,speed|current||Problem:
 Calculation of the average speed of a professor.|problem|seniso|2001-08-21 07:19:23|2002-07-21 10:57:43|mmp@msu|default
Average Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd036.problem|average,velocity|current||Average velocity problem|problem|seniso|2001-08-21 07:19:46|2001-09-06 19:47:49|mmp@msu (Michigan State University)|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd037.problem||current||Distance problem|problem|seniso|2001-08-21 07:20:03|2002-07-21 10:58:58|mmp@msu (Michigan State University)|default
Time|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd038.problem||current||Introductory time solving problem|problem|seniso|2001-08-21 07:20:28|2002-07-21 11:00:06|mmp@msu|default
Time 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd039.problem||current||Introductory time solving problem|problem|seniso|2001-08-21 07:20:48|2002-07-21 11:01:09|mmp@msu|default
Instantaneous Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd040.problem|graph,instantaneous,velocity|current||Solving for instantaneous velocity using a graph|problem|seniso|1969-12-31 19:32:49|2002-09-08 19:41:10|mmp@msu (Michigan State University)|default
Average Speed 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd041.problem|average,speed|current||Introductory average speed problem|problem|seniso|2001-08-21 07:21:29|2001-12-04 00:51:31|mmp@msu (Michigan State University)|default
Instantaneous Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd042.problem|instantaneous,acceleration,graph,accelerations|current||Using a graph to solve for instantaneous acceleration|problem|seniso|2001-08-21 07:21:53|2001-09-12 19:17:24|mmp@msu (Michigan State University)|default
Click on the Point|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/click_v0.problem|velocity|current||Finding a velocity point from a graph of x vs. t|problem|seniso|2001-08-21 07:24:55|2001-08-29 18:56:37|mmp@msu|default
Average Velocity 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd043.problem|average,velocity|current||Calculation of average velocity from a graph|problem|seniso|2001-08-21 13:56:02|2001-08-21 14:08:52|mmp@msu (Michigan State University)|default
Average Speed 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd044.problem|speed,average|current||Calculation of average speed from a graph|problem|seniso|2001-08-21 13:56:09|2001-08-21 14:09:56|mmp@msu (Michigan State University)|default
Time 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd045.problem|fall,free,time|current||Introductory time solving problem|problem|seniso|2001-08-21 07:24:00|2002-07-21 11:02:38|mmp@msu|default
Average Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/problems/cd046.problem|acceleration,average|current||Introductory average acceleration problem|problem|seniso|2001-08-21 07:24:27|2002-07-21 11:03:54|mmp@msu (Michigan State University)|default
Motion in One Dimension|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap2/cd019.htm|dimension|current||Inroduction page to motion in one dimension|htm|seniso|2001-08-16 20:55:57|2001-08-24 15:02:48|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Acceleration, Motion in one dimension|/res/msu/mmp/kap2/cd026nc.htm|motion,kinematic,acceleration|current||Acceleration in one dimension|htm|seniso|2001-08-16 21:28:05|2001-08-20 21:51:18|mmp@msu (Michigan State University)|default
Instantaneous Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Summaries, Motion in 1 Dimension|/res/msu/mmp/kap2/cd024nc.htm|instantaneous,rate,physics,velocity|current||Introduction to instantaneous velocity|htm|seniso|2001-08-20 20:14:23|2001-09-12 16:50:59|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Graph Lab: Kinematics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 1 Dimension|/res/msu/mmp/kap2/cd030.htm|kinematic,kinematics,physics,velocity|current||Graphlab using kinematics|htm|seniso|2001-08-21 00:06:22|2001-08-21 00:06:22|mmp@msu (Michigan State University)|default
Motion in 2 Dimension|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap2/calckap2.sequence||current|||sequence|seniso|2001-11-28 18:10:04|2002-01-16 11:59:33|mmp@msu (Michigan State University)|default
Derivation of Projectile Equations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/der/cd0621.htm|projectile,derivation|current||Applet used for the derivation of projectile equations|htm|seniso|2001-08-24 15:30:26|2001-08-24 15:30:26|mmp@msu (Michigan State University)|default
Shoot the Monkey Demonstration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/demo/cd063.htm|acceleration|current||Demonstration that shows how objects experience the same acceleration, a = -g, 
 in y-direction. |htm|seniso|2001-08-24 15:42:15|2001-08-24 15:42:15|mmp@msu (Michigan State University)|default
Ball Trajectory|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/demo/cd058.htm|trajectory,acceleration,velocity|current||Shows how the y-component of velocity of a projectile changes as a function 
 of time.|htm|seniso|2001-08-24 20:04:28|2001-08-24 20:04:28|mmp@msu (Michigan State University)|default
Ball Drop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/demo/cd061.htm|ball,drop,animation|current||Animation that shows the conditions during a ball drop.|htm|seniso|2001-12-05 00:13:50|2001-12-05 00:13:50|mmp@msu (Michigan State University)|default
Arrows|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Summaries|/res/msu/mmp/kap3/picts/arrows.gif|vectors|current|||gif|notset|2001-07-17 22:56:55|2001-09-04 20:51:47|mmp@msu (Michigan State University)|default
Graphical Addition and Subtraction of Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/cd052.jpg|addition,direction,vector|current||Graphical Addition and Subtraction of Vectors|jpg|seniso|2001-07-18 08:17:33|2001-09-04 20:57:57|mmp@msu (Michigan State University)|default
Graphical Addition and Subtraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions, pictures|/res/msu/mmp/kap3/picts/fig7a.gif|direction,vector,addition|current||Graphical Addition and Subtraction of vectors.|gif|seniso|2001-07-18 08:17:33|2001-12-04 23:39:38|mmp@msu (Michigan State University)|default
Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/ABC.gif||current||Addition of vectors |gif|seniso|2001-08-23 13:26:03|2001-08-23 13:26:03|mmp@msu (Michigan State University)|default
Vectors2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/ABD.gif|vectors,subtraction|current||Subtraction of vectors|gif|seniso|2001-08-23 13:27:17|2001-09-04 20:48:44|mmp@msu (Michigan State University)|default
Vectors Problem|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/Wavey.gif||current||Addition of vectors|gif|seniso|2001-08-23 13:28:05|2001-09-04 20:49:16|mmp@msu (Michigan State University)|default
Airplane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/acc.gif||current|||gif|seniso|2001-08-23 13:28:46|2001-09-04 20:49:38|mmp@msu (Michigan State University)|default
Velocity Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/aoft1.gif|velocity,graph|current||Velocity graph (x vs. t)|gif|seniso|2001-08-23 13:29:15|2001-09-04 20:49:54|mmp@msu (Michigan State University)|default
Acceleration Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/aoft2.gif|acceleration,graph|current||Acceleration graph (v vs. t)|gif|seniso|2001-08-23 13:29:54|2001-09-04 20:50:20|mmp@msu (Michigan State University)|default
Acceleration Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/avevel.gif||current||Acceleration graph (v vs. t)|gif|seniso|2001-08-23 13:43:22|2001-08-23 13:43:22|mmp@msu (Michigan State University)|default
Arrow|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/back2d.gif||current|||gif|seniso|2001-08-23 13:44:41|2001-09-04 20:52:24|mmp@msu (Michigan State University)|default
People|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/backsoli.pct.gif||current|||gif|seniso|2001-08-23 13:45:31|2001-09-04 20:52:40|mmp@msu (Michigan State University)|default
Ball|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/ball.gif||current|||gif|seniso|2001-08-23 13:46:03|2001-09-04 20:52:54|mmp@msu (Michigan State University)|default
Baseball|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/baseball.gif||current||Trajectory of a baseball|gif|seniso|2001-08-23 13:46:44|2001-08-23 13:46:44|mmp@msu (Michigan State University)|default
Boat|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/boat.gif||current|trajectory|Trajectory of a boat|gif|seniso|2001-08-23 13:47:40|2001-09-04 20:53:22|mmp@msu (Michigan State University)|default
Bridge|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/bridge.gif||current|||gif|seniso|2001-08-23 13:48:32|2001-09-04 20:53:44|mmp@msu (Michigan State University)|default
Cannon2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/cannon.gif||current||Picture of a cannon firing |gif|seniso|2001-08-23 13:51:47|2001-09-04 20:54:00|mmp@msu (Michigan State University)|default
Cannon2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/cannon2.gif|trajectory|current||Trajectory of a cannon ball|gif|seniso|2001-08-23 13:52:29|2001-09-04 20:54:24|mmp@msu (Michigan State University)|default
Car|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/carporb.gif||current|||gif|seniso|2001-08-23 13:53:13|2001-09-04 20:57:12|mmp@msu (Michigan State University)|default
Car2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/carprob.gif||current|||gif|seniso|2001-08-23 13:53:48|2001-08-23 13:53:48|mmp@msu (Michigan State University)|default
Computer Drop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/cdrop.gif||current||Picture of a computer drop from height h.|gif|seniso|2001-08-23 13:59:12|2001-12-04 23:40:09|mmp@msu (Michigan State University)|default
Angles of Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/diffvect.gif||current||Direction of vectors in the x-y coordinate plane|gif|seniso|2001-08-23 14:00:04|2001-09-04 20:58:34|mmp@msu (Michigan State University)|default
Vector Components|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Pictures, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig1.gif||current||Components and angles of a velocity vector|gif|seniso|2001-08-23 14:00:43|2001-09-04 20:59:24|mmp@msu (Michigan State University)|default
Arrow at Origin|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/origin.gif||current|||gif|seniso|2001-09-04 21:05:27|2001-09-04 21:05:27|mmp@msu (Michigan State University)|default
Veolcity Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/xyv.jpg|velocity|current||Graph of velocity in the x-y coordinate plane|jpg|seniso|2001-09-04 20:55:01|2001-09-04 20:55:01|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Direction of a Vector Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig2.gif|direction,vector|current||Graph of vector v in the x-y coordinate plane|gif|seniso|2001-09-04 21:09:35|2001-12-04 23:44:29|mmp@msu (Michigan State University)|default
Position Vector Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/xyr.jpg|position,vector|current||Direction of the position vector in the x-y coordinate plane.|jpg|seniso|2001-09-04 20:56:13|2001-09-04 20:56:13|mmp@msu (Michigan State University)|default
Velocity Components|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig11.gif|velocity,components|current||Velocity components of rain hitting a car|gif|seniso|2001-09-04 21:00:41|2001-09-04 21:00:41|mmp@msu (Michigan State University)|default
Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig12.gif|vectors|current||Addition of vectors|gif|seniso|2001-09-04 21:01:48|2001-12-04 23:44:57|mmp@msu (Michigan State University)|default
X-Y Coordinate Plane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/xy1.jpg||current||X-Y coordinate plane|jpg|seniso|2001-09-04 21:02:21|2001-12-04 23:42:27|mmp@msu (Michigan State University)|default
Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig10.gif||current||Addition of vectors|gif|seniso|2001-09-04 21:00:15|2001-12-04 23:41:04|mmp@msu (Michigan State University)|default
Resultant Vector|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/vectorab.gif|resultant,vector|current||Resultant vector|gif|seniso|2001-09-04 21:02:47|2001-09-04 21:02:47|mmp@msu (Michigan State University)|default
Vector Addition Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig7.gif|vector,addition|current||Graph of vector addition|gif|seniso|2001-09-04 21:04:06|2001-09-04 21:04:06|mmp@msu (Michigan State University)|default
Snowball|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/snowball.gif||current|||gif|seniso|2001-09-04 21:05:02|2001-09-04 21:05:02|mmp@msu (Michigan State University)|default
Addition of Vectors Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig9.pct.gif|vector,addition|current||Addition of the velocity vectors|gif|seniso|2001-09-04 21:05:54|2001-09-04 21:05:54|mmp@msu (Michigan State University)|default
Professor|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/student.gif||current||Picture of a professor|gif|seniso|2001-09-04 21:06:54|2001-12-04 23:44:09|mmp@msu (Michigan State University)|default
Resultant Vector 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/vectamb.gif||current|||gif|seniso|2001-09-04 21:07:18|2001-09-04 21:07:18|mmp@msu (Michigan State University)|default
Trajectory of a Ball Graph|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig13.gif|trajectory|current||Graph of the trajectory of a ball as a result of gravity and one 
 without gravity.|gif|seniso|2001-09-04 21:07:57|2001-09-04 21:07:57|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/xt.gif||current||Velocity graph|gif|seniso|2001-12-04 23:42:47|2001-12-04 23:42:47|mmp@msu (Michigan State University)|default
Airplane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/wind.gif||current||Picture of the direction of an airplane with respect to the wind.|gif|seniso|2001-12-04 23:41:45|2001-12-04 23:41:45|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/voft1.gif||current||Graph of x vs. t (velocity)|gif|seniso|2001-12-04 23:45:18|2001-12-04 23:45:18|mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/voft2.gif||current||Velocity graph|gif|seniso|2001-12-05 00:00:25|2001-12-05 00:00:25|mmp@msu (Michigan State University)|default
Time Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/time_eqn.gif||current|||gif|seniso|2001-10-23 11:46:17|2001-10-23 11:46:17|mmp@msu (Michigan State University)|default
Time Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/time_eqn2.gif||current|||gif|seniso|2001-10-23 11:50:20|2001-10-23 11:50:20|mmp@msu (Michigan State University)|default
Velocity |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/xtgraph.gif||current||Velocity graph|gif|seniso|2001-12-04 23:43:15|2001-12-04 23:43:15|mmp@msu (Michigan State University)|default
Vector B|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/vectorb.gif||current||Picture of vector B|gif|seniso|2001-12-04 23:43:40|2001-12-04 23:43:40|mmp@msu (Michigan State University)|default
Addition|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/fig6.gif||current||Components of vector A|gif|seniso|2001-12-04 23:46:49|2001-12-04 23:46:49|mmp@msu (Michigan State University)|default
Vector A|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/vectora.gif||current||Picture of vector A|gif|seniso|2001-12-04 23:47:50|2001-12-04 23:47:50|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/vt.gif||current||Graph of acceleration|gif|seniso|2001-12-04 23:48:21|2001-12-04 23:48:21|mmp@msu (Michigan State University)|default
Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/picts/sum.gif|vectors|current|||gif|seniso|2001-12-04 23:59:47|2001-12-04 23:59:47|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Motion in 2 Dimensions|/res/msu/mmp/kap3/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Motion in 2 Dimensions| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap3/kap3.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction to Motion in 2 Dimensions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd048a.htm|polar,dimension,vectors,vector,twodimensional|current||Introduction to motion in 2 Dimensions.|htm|seniso|2001-07-17 21:09:52|2001-09-12 16:55:15|mmp@msu (Michigan State University)|default
Orthogonal Coordinates |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/cd049.htm|polar,angle,hypotenuse,angles,coordinate,vectors,vector,cartesian,orthogonal,theorem,ycomponents,pythagoras|current||Expression of vector components in Cartesian and Polar coordinates.  
 Includes a graph of the components of the position vector, r.|htm|seniso|2001-07-23 11:27:35|2001-10-23 11:33:08|mmp@msu (Michigan State University)|default
Example: Orthogonal Coordinates|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd050.htm|angle,coordinate,components,vector,coordinates,orthogonal|current||Example of orthogonal coordinates|htm|seniso|2001-07-17 21:14:49|2001-10-23 11:36:54|mmp@msu (Michigan State University)|default
Velocity and Acceleration Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/cd049a.htm|vectors,components,acceleration,vector,component,velocity|current||Explanation of velocity and acceleration vectors|htm|seniso|2001-08-23 14:39:27|2001-09-12 17:26:39|mmp@msu (Michigan State University)|default
Addition of Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd051.htm|adding,vectors,vector|current||Calculation of vectors using graphical and component method|htm|seniso|2001-07-17 21:17:41|2001-08-23 14:55:02|mmp@msu (Michigan State University)|default
Graphical Addition and Subtraction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions |/res/msu/mmp/kap3/cd052.htm|direction,vector,addition|current||Graphical Addition and Subtraction of vectors.|htm|seniso|2001-07-18 08:17:33|2001-09-12 17:25:14|mmp@msu (Michigan State University)|default
Applet: Vector Addition|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd052a.htm|subtracted,subtraction,graphical,vector,addition,vectors|current||Applet used to show concepts of vector addition and subtraction|htm|seniso|2001-08-23 15:03:59|2001-08-24 15:17:47|mmp@msu (Michigan State University)|default
Analytical or Component Method|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd053.htm|length,components,component,coordinates|current||Analytical or Component Method for addition/subtraction of vectors|htm|seniso|2001-07-17 22:19:43|2001-09-06 21:09:37|mmp@msu (Michigan State University)|default
Example 1: Graphical Method|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd054.htm|angle,vectors,graphical,vector|current||Example using the graphical method to explain the addition of vectors.|htm|seniso|2001-07-18 08:52:08|2001-10-23 11:37:52|mmp@msu (Michigan State University)|default
Example 1: Component Method|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd055.htm|vectors,vector,component|current||Addition of vectors using the component method.|htm|seniso|2001-07-23 11:28:54|2001-12-05 00:13:27|mmp@msu (Michigan State University)|default
Relative Velocity |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd056.htm|cross,crossing,stream,upstream|current||Relative velocity examples.|htm|seniso|2001-07-18 09:06:07|2002-08-12 09:52:01|mmp@msu (Michigan State University)|default
Falling Rain|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd057.htm|motion,direction,vector,velocity|current||Vector addition using falling rain on a moving car as an example|htm|seniso|2001-07-18 09:23:21|2001-08-24 01:05:07|mmp@msu (Michigan State University)|default
Projectile Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd058.htm|direction,components,vector,trajectory,projectile|current||Introduction to projectile motion|htm|seniso|2001-08-24 01:06:52|2001-08-24 15:34:21|mmp@msu (Michigan State University)|default
Equations of Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/cd059.htm|motion,projectiles,projectile|current||Projectile motion equations|htm|seniso|2001-08-24 01:10:02|2001-08-24 01:10:02|mmp@msu (Michigan State University)|default
Applet: Projectile|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions |/res/msu/mmp/kap3/cd060new.htm|motion,muzzle,trajectories,projectile,cannon|current||Projectile motion simulation|htm|seniso|2001-07-18 09:26:40|2001-08-24 01:11:45|mmp@msu (Michigan State University)|default
Example: Soccer ball fall|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/cd061.htm|trajectory,distance,speed,time,tan|current||Example testing the concepts of projectile motion (includes a graph of the motion)|htm|seniso|2001-08-24 02:51:28|2001-10-23 12:09:11|mmp@msu (Michigan State University)|default
Range and Height|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/cd062.htm|height,projectile,range,trajectory|current||Range and height equations for projectiles|htm|seniso|2001-08-24 13:21:36|2002-08-12 10:10:52|mmp@msu (Michigan State University)|default
Example: Baseball Pitch |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/cd063.htm|acceleration,angle,speed,velocity|current||Examples of projectile motion. Includes a graph of the projectile path. |htm|seniso|2001-08-24 14:21:33|2002-08-12 10:21:40|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd076.htm|direction,vectors,acceleration,component,distances,projectiles,projectile,velocity|current||True/False practice for motion in 2 Dimensions|htm|seniso|2001-07-18 09:54:55|2001-08-24 02:45:16|mmp@msu (Michigan State University)|default
Motion in 2 Dimensions| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Summaries|/res/msu/mmp/kap3/sum03.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Ground Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd064.problem|orthogonal,speed,vectors|current||Introductory speed problem.|problem|seniso|2001-08-24 14:40:54|2002-07-21 11:09:49|mmp@msu (Michigan State University)|default
Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd065.problem|velocity,relative|current||Introductory speed problem.|problem|seniso|2001-08-24 14:41:14|2001-09-06 21:14:46|mmp@msu (Michigan State University)|default
Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd066.problem|angle,vector,vectors|current||Problem:
 Calculating the sum of two vectors.|problem|seniso|2001-08-24 14:41:37|2002-07-21 11:11:07|mmp@msu|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd067.problem|acceleration,velocity|current||Motion in 2-Dimensions problem.|problem|seniso|2001-08-24 15:41:56|2002-09-15 19:46:19|mmp@msu|default
Distance 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd068.problem|projectile,velocity|current||Projectile motion problem.|problem|seniso|2001-08-24 14:42:18|2002-07-21 11:13:04|mmp@msu|default
Speed 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd069.problem|angle,cannon,motion,projectile,velocity|current||Projectile motion problem.|problem|seniso|2001-08-24 14:46:04|2002-07-21 11:13:56|mmp@msu (Michigan State University)|default
Horizontal Component|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd070.problem|angle,balls,baseball,projectile,velocity|current||Projectile motion problem -- calculation of the horizontal component of the 
 velocity.|problem|seniso|2001-08-24 14:46:26|2002-07-21 11:14:45|mmp@msu (Michigan State University)|default
Maximum Range|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd071.problem|maximum,range,velocity|current||Maximum range problem.|problem|seniso|2001-08-24 14:46:46|2002-07-21 11:15:27|mmp@msu (Michigan State University)|default
Vector|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd072.problem|angle,vector|current||Calculation of the length of a vector using the analytical (component)
 method.|problem|seniso|2001-08-24 14:47:22|2001-09-06 21:45:17|mmp@msu (Michigan State University)|default
Height|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd073.problem|motion,projectile,velocity|current||Projectile motion problem.|problem|seniso|2001-08-24 14:47:46|2002-07-21 11:16:38|mmp@msu (Michigan State University)|default
Angle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd074.problem|angle,degrees,trigonometry,vector,vectors,velocity|current||Calculation of an agle with repsect to the horizontal.|problem|seniso|2001-08-24 14:48:06|2002-07-21 11:17:28|mmp@msu (Michigan State University)|default
Sum Length of Vectors|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Motion in 2 Dimensions|/res/msu/mmp/kap3/problems/cd075.problem|angle,angles,vector,vectors|current||Calculation of the sum length of vectors using the component method.|problem|seniso|2001-08-24 14:48:31|2002-07-21 11:18:22|mmp@msu (Michigan State University)|default
Motion in 2 Dimensions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd048.htm||current||Introduction page to motion in 2 dimensions|htm|seniso|2001-08-23 13:32:25|2001-08-24 15:03:37|mmp@msu (Michigan State University)|default
Cannon Applet|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/cannon.html|motion,trajectories,projectile,velocity|current||Simulation of projectile motion using a cannon |html|seniso|2001-08-23 13:37:40|2001-09-06 21:09:23|mmp@msu (Michigan State University)|default
Stream Crossing Problem, cont.|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd056a.htm|distance,speed,components,xcomponent|current||Explanation of the stream crossing problem.|htm|seniso|2001-08-24 01:02:53|2001-10-23 11:41:21|mmp@msu (Michigan State University)|default
Projectile Simulation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd060.htm|motion,trajectories,projectile|current||Projectile motion simulation|htm|seniso|2001-08-24 01:10:46|2001-08-24 01:10:46|mmp@msu (Michigan State University)|default
Example: Baseball Pitch, cont.|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/cd063a.htm|trajectory,angle,acceleration,velocity|current||Examples of projectile motion with a graph illustrating the path of the 
 projectile|htm|seniso|2001-08-24 14:30:57|2001-10-23 12:37:22|mmp@msu (Michigan State University)|default
Preview, Motion in 2 Dimensions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/Preview.html|swimmer,swimmers,swim|current|||html|seniso|2001-08-25 14:08:10|2001-08-25 14:08:10|mmp@msu (Michigan State University)|default
Preview, Motion in 2 Dimensions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Motion in 2 Dimensions|/res/msu/mmp/kap3/Preview693.html|ball,speed,soccer,fell,free,falls,fall|current|||html|seniso|2001-08-25 14:08:52|2001-08-25 14:08:52|mmp@msu (Michigan State University)|default
Motion in 2 Dimensions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap3/calckap3.sequence||current|||sequence|seniso|2001-11-28 18:13:40|2002-01-21 12:08:54|mmp@msu (Michigan State University)|default
Inertia Applet|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/demo/cd079.htm|inertia|current||Demonstration that shows the resistance of mass to acceleration (inertia)
 .|htm|seniso|2001-08-25 02:41:43|2001-08-25 02:41:43|mmp@msu (Michigan State University)|default
Friction Demo|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/demo/blockslide.htm|kinetic,friction,incline,weight|current|||htm|seniso|2001-08-25 03:04:52|2001-08-25 03:04:52|mmp@msu (Michigan State University)|default
Demo: Air Resistance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/demo/cd096.htm|simulation,resistance,velocity|current|||htm|seniso|2001-08-25 14:14:03|2001-08-25 14:14:03|mmp@msu (Michigan State University)|default
Derivation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/der/cd0971.htm|derivation,proof|current|||htm|seniso|2001-08-25 14:15:32|2001-08-25 14:15:32|mmp@msu (Michigan State University)|default
Introduction, , |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion, , |/res/msu/mmp/kap4/picts/sliding.gif||current|||gif|seniso|2001-07-16 16:23:00|2001-07-18 13:43:45|mmp@msu (Michigan State University)|default
Example: Two Objects , |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion, |/res/msu/mmp/kap4/picts/plane.gif||current|||gif|seniso|2001-07-18 13:51:34|2001-07-18 14:13:33|mmp@msu (Michigan State University)|default
Foxtrot Comic|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/ft010707.gif||current||Foxtrot Comic|gif|seniso|2001-08-25 02:48:38|2001-12-06 15:31:56|mmp@msu (Michigan State University)|default
Newton's 2nd Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd086d.gif|newton,second law, acceleration, mass, force|current||Equation for Newton's 2nd Law|gif|seniso|2001-12-06 15:10:28|2001-12-06 15:10:28|mmp@msu (Michigan State University)|default
Newton Scale|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/newton.jpg||current|||jpg|seniso|2001-12-06 15:28:21|2001-12-06 15:28:21|mmp@msu (Michigan State University)|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/force.gif|force,vector|current||Picture and principles of a force vector.|gif|seniso|2001-12-06 15:33:20|2001-12-06 15:33:20|mmp@msu (Michigan State University)|default
Summation of Forces|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/ex5eq2.gif||current||Equations for the summation of forces in the x and y directions.|gif|seniso|2001-12-06 15:18:04|2001-12-06 15:18:04|mmp@msu (Michigan State University)|default
Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/ex4fig3.gif|free,body, mass|current||Free body diagram for a mass.|gif|seniso|2001-12-06 15:20:25|2001-12-06 15:20:25|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd086a.gif||current||Equation for the acceleration of an object.|gif|seniso|2001-12-06 15:07:50|2001-12-06 15:07:50|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd086b.gif|acceleration,mass|current||Relation between acceleration and mass.|gif|seniso|2001-12-06 15:09:17|2001-12-06 15:09:17|mmp@msu (Michigan State University)|default
Newton's 2nd Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd086c.gif||current||Equation for Newton's 2nd law.|gif|seniso|2001-12-06 15:09:52|2001-12-06 15:09:52|mmp@msu (Michigan State University)|default
Free Body diagram|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd091a.jpg|force,free body, tension, acceleration, mass|current||Free body diagram illustrating the forces acting on a gymnast.|jpg|seniso|2001-12-06 15:11:30|2001-12-06 15:11:30|mmp@msu (Michigan State University)|default
Free Body Diagram|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd094i1.jpg||current||Free body diagram for the forces acting on a block.|jpg|seniso|2001-12-06 15:12:41|2001-12-06 15:12:41|mmp@msu (Michigan State University)|default
Parachute|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/parach.gif||current||Picture of a parachuter.|gif|seniso|2001-12-06 15:28:45|2001-12-06 15:28:45|mmp@msu (Michigan State University)|default
Mass 1|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/trig1.gif||current|||gif|seniso|2001-12-06 15:22:08|2001-12-06 15:22:08|mmp@msu (Michigan State University)|default
Pulley system|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd83fig2.jpg|free,body, pulley|current||Free body diagram for a pulley system.|jpg|seniso|2001-12-06 15:19:38|2001-12-06 15:19:38|mmp@msu (Michigan State University)|default
Pulled Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/ex2fig.gif|free,body, pulled, mass, force|current||Free body diagram for a mass being pulled.|gif|seniso|2001-12-06 15:21:06|2001-12-06 15:21:06|mmp@msu (Michigan State University)|default
Atwood|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/atwood.gif|atwood|current||Picture of an atwood machine|gif|seniso|2001-12-06 15:00:59|2001-12-06 15:00:59|mmp@msu (Michigan State University)|default
Galileo|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/galileo.gif||current||Picture of Galileo.|gif|seniso|2001-12-06 15:32:15|2001-12-06 15:32:15|mmp@msu (Michigan State University)|default
Block|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd094i2.jpg|free,body, block, forces, velocity, acceleration|current||Free body diagram for the forces acting on a block being pushed.  |jpg|seniso|2001-12-06 15:13:32|2001-12-06 15:13:32|Blockmmp@msu (Michigan State University)|default
Free Body Diagram|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/weight.gif|free,body, force|current||free body diagram for the forces acting on a bag.|gif|seniso|2001-12-06 15:14:35|2001-12-06 15:14:35|mmp@msu (Michigan State University)|default
Ball|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd83fig1.jpg|free,body, ball force, mass, gravity|current||Free body diagram for a ball sitting on a table.|jpg|seniso|2001-12-06 15:17:08|2001-12-06 15:17:08|mmp@msu (Michigan State University)|default
Net Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/cd082a.gif|force|current||Equation for the net force on an object.|gif|seniso|2001-12-06 15:07:06|2001-12-06 15:07:06|mmp@msu (Michigan State University)|default
Pulled Masses|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/pullmass.gif||current||Picture of two pulled masses.|gif|seniso|2001-12-06 15:34:26|2001-12-06 15:34:26|mmp@msu (Michigan State University)|default
Inclined plane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/ex6fig.gif|free,body, inclined plane, block, mass, acceleration, |current||Free body diagram for a block sliding down an inclined plane.  |gif|seniso|2001-12-06 15:16:06|2001-12-06 15:16:06|mmp@msu (Michigan State University)|default
Suspended Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/ex4fig2.gif|free,body, suspension, tension, force, mass|current||Free body diagram for a suspended mass.|gif|seniso|2001-12-06 15:18:43|2001-12-06 15:18:43|mmp@msu (Michigan State University)|default
Inclined Plane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/plane2.gif||current||Picture of a force being applied to a block on an inclined plane.|gif|seniso|2001-12-06 15:29:28|2001-12-06 15:29:28|mmp@msu (Michigan State University)|default
Unbalanced Forces|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/unbalan.gif|unbalanced,forces|current||Picture of unbalanced forces.|gif|seniso|2001-12-06 15:22:55|2001-12-06 15:22:55|mmp@msu (Michigan State University)|default
Mass 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/m2.gif||current||Picture of mass 2.|gif|seniso|2001-12-06 15:23:35|2001-12-06 15:23:35|mmp@msu (Michigan State University)|default
Slide|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/slide.gif|Slding,block|current||Picture illustrating a block sliding down an inclined plane.|gif|seniso|2001-09-12 20:18:44|2001-12-06 15:15:22|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/accel.gif||current|||gif|seniso|2001-09-14 16:13:19|2001-09-14 16:13:19|mmp@msu (Michigan State University)|default
Two Masses|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/twomass.gif||current|pulley, inclined plane|Picture of two masses being suspended by a pulley on an inclined plane.|gif|seniso|2001-12-06 15:24:14|2001-12-06 15:24:14|mmp@msu (Michigan State University)|default
Two Blocks|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/twoblock.gif||current||Picture of two stacked blocks.|gif|seniso|2001-12-06 15:25:01|2001-12-06 15:25:01|mmp@msu (Michigan State University)|default
Newton|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/newton.gif|newton|current||Picture of Sir Isaac Newton.|gif|seniso|2001-12-06 15:25:29|2001-12-06 15:25:29|mmp@msu (Michigan State University)|default
Atwood|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/atwood2.gif|atwood|current||Picture of an atwood machine showing the direction of the acceleration of two masses. |gif|seniso|2001-12-06 15:05:59|2001-12-06 15:05:59|mmp@msu (Michigan State University)|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/image002.gif||current||Picture of a force being applied to a block at an angle.|gif|seniso|2001-09-24 16:13:47|2001-12-06 15:30:25|mmp@msu (Michigan State University)|default
Pulled BLock|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/friction.gif|free,body, force, friction|current||Free body diagram for the forces acting a pulled block.|gif|seniso|2001-12-06 15:31:06|2001-12-06 15:31:06|mmp@msu (Michigan State University)|default
Apple|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/apple.gif||current||Picture of the gravitational attraction between an apple and the earth.|gif|seniso|2001-12-06 15:00:14|2001-12-06 15:00:14|mmp@msu (Michigan State University)|default
Free Body Diagram|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/picts/freebody.gif||current||Picture of a free body diagram.|gif|seniso|2001-12-06 15:32:45|2001-12-06 15:32:45|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Force and Motion|/res/msu/mmp/kap4/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Force and Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap4/kap4.sequence||current|||sequence|seniso|2001-09-25 14:45:58|2001-12-31 13:38:04|mmp@msu (Michigan State University)|default
Introduction to Force and Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd078.htm|motion,magnet,forces,reaction,law,laws,friction,gravity,action,newtons,force,dynamics,kinematics,inertia,magnetic,weight|current||Introduction to dynamics and Newton's 3 laws of motion.|htm|seniso|2001-07-16 16:23:00|2001-09-04 20:35:15|mmp@msu (Michigan State University)|default
Newton's Laws|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd079.htm|motion,force,newtonian,acceleration,mass,newton|current||Newton's fundamental laws of motion|htm|seniso|2001-07-16 16:32:57|2001-09-04 20:43:02|mmp@msu (Michigan State University)|default
Force and Net Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd080.htm|motion,forces,newtons,body,force,directions,direction,vectors,components,acceleration,vector,freebody,law|current||Introduction to force vectors and free-body diagrams.|htm|seniso|2001-07-16 16:40:24|2001-09-04 20:42:14|mmp@msu (Michigan State University)|default
Balanced and Unbalanced Forces|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd081.htm|gravity,diagram,diagrams,balanced,freebody,unbalanced,weight|current||Free-body diagrams of balanced and unbalanced forces.|htm|seniso|2001-07-16 16:46:16|2001-09-04 21:25:34|mmp@msu (Michigan State University)|default
Net Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd082a.htm|forces,distance,net,gravity,electrostatic,force,act,attraction|current||Net force and individual forces.|htm|seniso|2001-07-16 16:54:43|2001-09-14 15:45:50|mmp@msu (Michigan State University)|default
Applet: Net Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd082.htm|forces,net,force,vectors,vector|current||Net force applet that allows you to change the individual forces acting on
 an object. 
 |htm|seniso|2001-08-25 02:22:04|2001-09-04 21:28:05|mmp@msu (Michigan State University)|default
Newton's First Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd083.htm|motion,forces,newtons,force,galileo,inertia,mass,law,friction,newton,velocity|current||Page on Newton's 1st law of motion|htm|seniso|2001-07-16 16:58:16|2001-09-04 21:31:19|mmp@msu (Michigan State University)|default
Components of Force |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion |/res/msu/mmp/kap4/cd084.htm|forces,newtons,force,velocity|current||Newton's 1st law applied to components of forces.|htm|seniso|2001-07-16 17:04:33|2001-09-04 21:43:19|mmp@msu (Michigan State University)|default
Example: Three Forces |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd085.htm|forces,force,vectors,components,vector,component|current||Examples of 3 forces acting on an object -- uses the concepts of unit vectors, 
 component method and Newton's 1st law.|htm|seniso|2001-08-25 02:23:39|2001-09-04 21:46:24|mmp@msu (Michigan State University)|default
Newton's Second Law  |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd086.htm|net,newtons,force,accelerate,direction,acceleration,mass,netforce|current||Introduction to Newton's 2nd Law including an illustration of the force and
 acceleration vectors acting on a mass.|htm|seniso|2001-07-16 17:08:43|2001-09-04 21:50:16|mmp@msu (Michigan State University)|default
Force and Weight|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd087.htm|kg,force,si,acceleration,dimensional,newton,dimensionality,weigh,weight,velocity|current||Explanation of weight as a force|htm|seniso|2001-07-16 17:10:57|2001-09-04 21:58:02|mmp@msu (Michigan State University)|default
Example: Sliding|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd088.htm|forces,balance,force,frictionless,components,acceleration,unbalanced,slides|current||Sliding exmple.|htm|seniso|2001-07-18 13:43:15|2001-09-18 08:35:17|mmp@msu (Michigan State University)|default
Example: Two Objects |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion |/res/msu/mmp/kap4/cd089.htm|forces,object,diagram,force,frictionless,tension,objects,direction,acceleration,component,freebody,mass,friction,massless|current||Example and illustration of two objects connected by a massless string that 
 slide on a frictionless surface.|htm|seniso|2001-07-18 13:51:34|2001-09-16 19:16:45|mmp@msu (Michigan State University)|default
Example: Inclined Plane |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd090.htm|trigonometry,ma,ms,diagram,body,frictionless,diagrams,trig,free,acceleration,mass,pulley,inclined,massless,plane|current||Inclined plane example that demonstrates how to use free-body diagrams and trig
 to solve problems.  |htm|seniso|2001-07-18 14:13:55|2001-10-23 12:46:29|mmp@msu (Michigan State University)|default
Statics |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd091.htm|equilibrium,acceleration,forces,static,statics,balanced|current||Introduction to statics.|htm|seniso|2001-08-25 02:30:01|2001-09-14 16:39:08|mmp@msu (Michigan State University)|default
Example: Statics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd091a.htm|direction,directions,forces,statics,tension|current||Statics example with a free-body diagram of the problem.|htm|seniso|1969-12-31 19:33:21|2002-09-17 15:44:22|mmp@msu (Michigan State University)|default
Newton's Third Law|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd092.htm|reaction,opposite,action|current||Introduction to Newton's 3rd law of motion.|htm|seniso|2001-07-26 09:34:56|2001-09-14 17:20:21|mmp@msu (Michigan State University)|default
Friction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd093.htm|static,kinetic,aristotle,kinematics,frictional,forces,kinetic,static,friction,force,resistance,rolling|current||Introduction to forces of friction -- static, kinetic and rolling.|htm|seniso|2001-07-18 14:36:22|2001-09-16 17:36:18|mmp@msu (Michigan State University)|default
Force of Friction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd094.htm|forces,kinetic,static,coefficient,friction,balance,force,balanced|current||Explanation of kinetic and static frictional forces with diagrams illustrating
 the magnitudes of these forces.|htm|seniso|2001-07-18 14:40:01|2001-09-16 17:41:54|mmp@msu (Michigan State University)|default
Characterization of Friction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion,|/res/msu/mmp/kap4/cd095.htm|characterization,components,forces,kinetic,static,coefficient,perpendicular,friction,inclined,force,plane|current||Inclined plane example with frictional forces. Includes an illustration of the 
 forces acting along the inclined plane.|htm|seniso|2001-07-18 14:44:41|2001-09-16 17:50:18|mmp@msu (Michigan State University)|default
Applet: Inclined Plane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd095a.htm|applet,pulley,inclined,plane|current||Iclined plane applet illustrating the effect frictional forces have on a mass
 sliding down an inclined plane.  |htm|seniso|2001-07-23 11:26:01|2001-09-16 17:53:02|mmp@msu (Michigan State University)|default
Air Resistance |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion |/res/msu/mmp/kap4/cd096.htm|accelerates,air,force,friction,gravity,resistance,simulation,terminal,trajectories,velocity|current||Introduction to air resistance with a simulation of the velocity of two 
 dropping balls, one with and one without air resistance.|htm|seniso|2001-07-18 15:59:59|2002-09-18 11:41:15|mmp@msu (Michigan State University)|default
Atwood Machine|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd097.htm|acceleration,gravitational,friction,pulley,atwood,force|current||Explanation and illustration of an Atwood machine.|htm|seniso|2001-07-23 11:26:22|2001-09-16 18:40:58|mmp@msu (Michigan State University)|default
Atwood Applet|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd097a.htm|applet,atwood|current||Atwood machine applet.|htm|seniso|2001-08-25 02:53:52|2001-09-16 18:42:00|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/cd110.htm|forces,gravity,newtons,force,tension,vector,law,laws,inclined,plane,incline,weight,velocity,terminal|current||True False practice for chapter 4.|htm|seniso|2001-08-25 02:54:15|2001-09-16 18:44:11|mmp@msu (Michigan State University)|default
Force and Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap4/sum04.htm|gravity,newtons,force,acceleration,kinetic,friction,velocity,terminal,falling|current|||htm|seniso|2001-08-25 02:55:01|2001-08-25 14:23:55|mmp@msu (Michigan State University)|default
Chapter 4 Page|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/cd077.htm|force|current||Chapter 4 title page|htm|seniso|2001-08-24 02:54:17|2001-09-06 21:56:35|mmp@msu (Michigan State University)|default
Maximum Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd098.problem|acceleration,coefficient,force,friction,kg,ma,mass,static|current||Problem:
 While taking the coefficient of kinetic friction into account, determining the 
 maximum acceleration a truck can have without a crate sliding off. |problem|seniso|2001-08-25 14:16:48|2002-07-21 11:24:46|mmp@msu|default
Tension|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd099.problem|kg,ma,newtons,tension,acceleration,mass|current||Problem:
 Calculation of tension in a rope.|problem|seniso|2001-08-25 14:17:21|2001-09-16 19:24:11|mmp@msu|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd100.problem|accelerate,acceleration,coefficient,force,forces,friction,kg,ma,mass,newtons|current||Problem:
 Using concepts of frictional forces to determine the amount of force needed to be
 applied to a situation.|problem|seniso|2001-08-25 14:17:56|2002-07-21 11:25:39|mmp@msu|default
Tension 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd101.problem|forces,rope,newtons,speed,force,tension,mass,pulley|current||Problem:
 Calculation of the amount of tension in a rope.  |problem|seniso|2001-08-25 14:19:01|2001-09-21 09:34:28|mmp@msu|default
Angle with Horizontal|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd102.problem|acceleration,angle,force,forces,inclined,kg,mass,plane|current||Problem:
 Calculation of the angle of a frictionless inclined plane with respect to the 
 horizontal.|problem|seniso|2001-08-25 14:19:32|2002-07-21 11:26:15|mmp@msu|default
X-Component Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd103.problem|forces,newtons,satellite,force,xcomponent|current||Problem:
 Calculation of the x-component of a force exerted by a satellite on an 
 astronaut.|problem|seniso|2001-08-25 14:20:02|2001-09-16 19:34:36|mmp@msu|default
Tension 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd104.problem|force,forces,gravity,weight|current||Problem:
 Calculation of the tension in two equally lengthed ropes.|problem|seniso|2001-08-25 14:20:29|2002-07-21 11:26:54|mmp@msu|default
Force 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd105.problem|force,frictionless,gravitational,inclined,plane,speed,velocity|current||Problem:
 Calculation of the magnitude of the force required to push a crate up a 
 frictionless inclined plane.|problem|seniso|2001-08-25 14:20:56|2002-07-21 11:27:30|mmp@msu|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd106.problem|masses,kg,acceleration,mass,pulley,atwood|current||Calculation of the acceleration of a mass in a frictionless pulley system.|problem|seniso|2001-08-25 14:21:26|2001-10-23 10:53:44|mmp@msu (Michigan State University)|default
Terminal Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd107.problem|air,force,gravity,resistance,terminal,velocity,weight|current||Problem:
 Calculation of the value of K.|problem|seniso|2001-08-25 14:21:56|2002-08-01 13:20:11|mmp@msu|default
Angle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd108.problem|accelerating,angle,constant,force,forces,velocity|current||Problem:
 Calculation of the angle of the third force acting on a body.|problem|seniso|2001-08-25 14:22:31|2002-07-21 11:28:32|mmp@msu|default
Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/problems/cd109.problem|force,friction,gravity,kg,machine,masses,pulley,velocity|current||Problem:
 Calculation of mass two in a two-mass pulley system.|problem|seniso|2001-08-25 14:23:13|2002-07-21 11:29:18|mmp@msu|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion|/res/msu/mmp/kap4/trigHelp.html|trigonometry,sin,degrees,force,cos,sine,cosine,triangle|current|||html|seniso|2001-08-25 14:24:49|2001-08-25 14:24:49|mmp@msu (Michigan State University)|default
Sample Problem for Quiz, Tuesday September 25|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Force and Motion|/res/msu/mmp/kap4/cd094c.htm|example,force,block,static,friction|current|||htm|seniso|2001-09-24 16:19:22|2001-09-25 15:15:22|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Force and Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap4/calckap4.sequence||current|||sequence|seniso|2001-09-25 14:45:58|2002-02-05 14:10:26|mmp@msu (Michigan State University)|default
Demo: Kinetic Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/demo/cd123.htm|pendulum,swings,energy,speed,pe,te,kinetic,potential|current||Applet graphically illustrating the kinetic and potential energies of a pendulum.|htm|seniso|2001-08-25 15:15:55|2001-09-23 22:47:39|mmp@msu (Michigan State University)|default
Demo: Kinetic Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/demo/cd125.htm|ball,energy,ramp,balls,kinetic,video,potential,inclines,roll|current||Applet illustrating potential energy.|htm|seniso|2001-08-25 15:16:56|2001-09-23 22:49:03|mmp@msu (Michigan State University)|default
Demo: Kinetic Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/demo/cd126.htm|pendulum,energy,video,conserved,conservation,velocity|current|||htm|seniso|2001-08-25 15:17:34|2001-09-23 22:53:37|mmp@msu (Michigan State University)|default
Derivation: Kinetic Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/der/cd1201.htm|derivation|current|||htm|seniso|2001-08-25 15:18:36|2001-08-25 15:18:36|mmp@msu (Michigan State University)|default
Top-level map at MAHS, 2001|paul Ciske|physics|/res/msu/mmp/kap5/picts/springy.gif||current||Top level map used by Mio-AuSable High School, Mio Michigan.  2001-2002 school year.|gif|seniso|2001-07-18 15:39:39|2001-07-19 10:20:15|ciskepau@msu|default
Block|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)||/res/msu/mmp/kap5/picts/fig1.gif|force|current||Free body diagram for the force acting on a moving block.
 |gif|seniso|2001-07-19 19:18:16|2001-12-06 15:51:07|mmp@msu|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/springy.html||current|||html|seniso|2001-07-19 19:46:31|2001-07-19 19:46:31|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
|||/res/msu/mmp/kap5/picts/swingy.gif||current|||gif|notset|2001-07-19 19:47:00|2001-07-19 19:47:00||default
Balloon|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/balloon.gif||current||Picture of a hot air balloon.|gif|seniso|2001-12-06 15:47:57|2001-12-06 15:47:57|mmp@msu (Michigan State University)|default
Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/int1.gif||current||Intergral equation for work.|gif|seniso|2001-12-07 14:08:26|2001-12-07 14:08:26|mmp@msu (Michigan State University)|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/fig2.gif||current||Diagram of the forces acting on a pulled mass.|gif|seniso|2001-12-06 16:09:50|2001-12-06 16:09:50|mmp@msu (Michigan State University)|default
Skier|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/skier.gif||current||Picture of a skier.|gif|seniso|2001-12-07 14:10:38|2001-12-07 14:10:38|mmp@msu (Michigan State University)|default
Block|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/fig23.gif|free,body, force|current||Free body diagrams for the forces acting on a block.|gif|seniso|2001-12-07 14:12:34|2001-12-07 14:12:34|mmp@msu (Michigan State University)|default
Block|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/fig3.gif|free,body, force|current||Free body diagram for the forces acting on a block.|gif|seniso|2001-12-07 14:13:16|2001-12-07 14:13:16|mmp@msu (Michigan State University)|default
Car|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/ex7car.gif||current||Picture of a car.|gif|seniso|2001-12-06 15:50:38|2001-12-06 15:50:38|mmp@msu (Michigan State University)|default
Car crash|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/crash.gif||current||Picture of a crashed car.|gif|seniso|2001-12-07 14:11:04|2001-12-07 14:11:04|mmp@msu (Michigan State University)|default
Moving Car|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/car-1.gif||current||Moving car picture|gif|seniso|2001-12-07 14:11:32|2001-12-07 14:11:32|mmp@msu (Michigan State University)|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/velocity.gif|velocity|current||Velocity equation.|gif|seniso|2001-09-23 16:01:16|2001-09-23 16:01:16|mmp@msu (Michigan State University)|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/velocity_eqn.gif||current|||gif|seniso|2001-09-23 16:34:25|2001-09-23 16:34:25|mmp@msu (Michigan State University)|default
Velocity Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/velocity_eqn2.gif||current|||gif|seniso|2001-09-23 16:46:49|2001-09-23 16:46:49|mmp@msu (Michigan State University)|default
Height Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/height_eqn.gif||current|||gif|seniso|2001-09-23 17:17:39|2001-09-23 17:17:39|mmp@msu (Michigan State University)|default
Power Conversion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/power_conv.gif|power|current|||gif|seniso|2001-09-23 17:55:31|2001-09-23 17:55:31|mmp@msu (Michigan State University)|default
Velocity Conversion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/velocity_conv.gif|velocity|current||Equation for the conversion of velocity from mph to m/s.|gif|seniso|2001-09-23 18:00:41|2001-12-06 15:46:06|mmp@msu (Michigan State University)|default
Power Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/power_eqn.gif|power|current|||gif|seniso|2001-09-23 18:05:06|2001-09-23 18:05:06|mmp@msu (Michigan State University)|default
Time Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/time_eqn.gif|time|current|||gif|seniso|2001-09-23 18:18:15|2001-09-23 18:18:15|mmp@msu (Michigan State University)|default
Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/force_eqn.gif||current|||gif|seniso|2001-09-23 21:54:58|2001-09-23 21:54:58|mmp@msu (Michigan State University)|default
Potential Energy Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/pe_eqn.gif|energy,potential|current||Equation used in an example for the potential energy.|gif|seniso|2001-09-23 22:43:38|2001-12-07 14:15:15|mmp@msu (Michigan State University)|default
Baby|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/baby.gif||current||Picture of a baby.|gif|seniso|2001-12-06 15:46:48|2001-12-06 15:46:48|mmp@msu (Michigan State University)|default
Skier|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/backekin.gif||current||Picture of a skier.|gif|seniso|2001-12-06 15:47:11|2001-12-06 15:47:11|mmp@msu (Michigan State University)|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/ex2eq1.gif|forces|current||Equation for the summation of forces.|gif|seniso|2001-12-06 15:48:32|2001-12-06 15:48:32|mmp@msu (Michigan State University)|default
Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/ex2eq2.gif|work,force|current||Equations used to solve for work.|gif|seniso|2001-12-06 15:49:17|2001-12-06 15:49:17|mmp@msu (Michigan State University)|default
Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/ex3.gif||current||Picture of a mass on a spring|gif|seniso|2001-12-06 15:49:54|2001-12-06 15:49:54|mmp@msu (Michigan State University)|default
Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/workint.jpg||current||Work equation|jpg|seniso|2001-12-07 14:07:47|2001-12-07 14:07:47|mmp@msu (Michigan State University)|default
Spring|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/varf1.gif||current||Picture of a block on a spring.|gif|seniso|2001-12-07 14:09:06|2001-12-07 14:09:06|mmp@msu (Michigan State University)|default
Truck|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/truck.gif||current||Picture of a truck.|gif|seniso|2001-12-07 14:09:48|2001-12-07 14:09:48|mmp@msu (Michigan State University)|default
Balloon|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/balloonm.gif||current||Picture of a moving balloon.|gif|seniso|2001-12-07 14:12:00|2001-12-07 14:12:00|mmp@msu (Michigan State University)|default
Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/int2.gif|work|current||Integral equation for work.|gif|seniso|2001-12-07 14:13:54|2001-12-07 14:13:54|mmp@msu (Michigan State University)|default
Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/picts/int3.gif|work,equation|current||Integral equation for work|gif|seniso|2001-12-07 14:14:33|2001-12-07 14:14:33|mmp@msu (Michigan State University)|default
Applet: Force and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/work/work.htm|work,gravity,force,applet,kinetic,coefficient,friction|current||Force and work applet.|htm|seniso|2001-08-25 15:19:19|2001-09-23 18:52:53|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Kinetic Energy and Work|/res/msu/mmp/kap5/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Kinetic Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap5/kap5.sequence||current|||sequence|seniso|2001-12-28 14:23:21|2001-12-28 14:23:21|mmp@msu (Michigan State University)|default
Work and Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd112.htm|energy,unit,work,joule,dynamics,kinematics,kinetic,units|current||Introduction to work and energy.|htm|seniso|2001-08-25 14:52:56|2001-09-23 21:45:44|mmp@msu (Michigan State University)|default
Force and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd113.htm|work,path,force,pathindependent|current||Explanation of how to calculate the work done by a force using basic calculus.|htm|seniso|2001-08-25 14:53:45|2001-08-31 11:45:12|mmp@msu (Michigan State University)|default
Work Done by a Constant Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd114.htm|work,force,displacement|current||Explanation and illustration of work done by a constant force if the force isn't
 parallel to the displacement.|htm|seniso|2001-07-19 09:00:48|2001-08-31 11:58:49|mmp@msu (Michigan State University)|default
Example: Moving a Box|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd114a.htm|kg,heat,angle,energy,mechanicalwork,height,weights,work,gravity,speed,temperature,mechanical,vectors,vector,mass,potential,displacement,thermodynamics,weight|current||Three examples of work done by a force.|htm|seniso|2001-08-25 14:56:41|2001-10-23 12:50:10|mmp@msu (Michigan State University)|default
Example: Balloon|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd115.htm|kg,work,gravity,force,kinematics,mass,displacement|current||Example of the work done by the force of gravity.|htm|seniso|2001-08-25 14:57:56|2001-10-23 12:51:28|mmp@msu (Michigan State University)|default
Example: Sled|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd116.htm|forces,work,force,vector,kinetic,coefficient,friction,velocity|current||Example and illustration of the work done by a force when the force isn't parallel
 to the displacement.|htm|seniso|2001-08-25 14:58:28|2001-10-23 12:52:34|mmp@msu (Michigan State University)|default
Spring Force |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd117.htm|equilibrium,forces,distance,hookes,work,force,compressed,average,law,spring,units|current||Force exerted by a spring as it obeys Hooke's law. Includes and applet of the 
 spring that indicates both the magnitude and direction of the force.|htm|seniso|2001-07-19 09:12:09|2001-08-31 12:19:57|mmp@msu (Michigan State University)|default
Energy Stored in a Spring |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd118.htm|equilibrium,forces,energy,stretched,compress,force,stretching,compressed,compresses,acceleration,compressing,spring,velocity|current||Explanation of energy stored in a spring.|htm|seniso|2001-07-19 09:53:37|2001-10-23 12:53:31|mmp@msu (Michigan State University)|default
Example: Spring|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work |/res/msu/mmp/kap5/cd119.htm|equilibrium,stretched,stretches,work,gravity,force,mass,position,pulled,spring|current||Example calculating the total work done against a spring.|htm|seniso|2001-07-19 10:26:28|2001-08-31 15:30:17|mmp@msu (Michigan State University)|default
Work-Energy Theorem|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd120.htm|energy,work,kinetic,potential,velocity|current||Explanation of how work is related to kinetic and potential energy.|htm|seniso|2001-07-19 10:28:07|2001-08-31 15:32:54|mmp@msu (Michigan State University)|default
Example: Sliding Block|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd121.htm|ki,sliding,energy,work,techniques,dynamics,kinematics,coefficient,friction,slides|current||Calculation and illustration of how much work is done by friction in a sliding 
 block example. This is calculated using work-energy considerations and simple 
 kinematics.|htm|seniso|2001-07-19 10:34:05|2001-09-23 22:00:22|mmp@msu (Michigan State University)|default
Potential Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd122.htm|equilibrium,energy,length,store,height,work,gravity,joule,position,spring,potential,displacement|current||Explanation of potential energy in a spring with an example.|htm|seniso|2001-07-19 10:44:37|2001-09-23 22:46:18|mmp@msu (Michigan State University)|default
Conservation of Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd123.htm|heat,momentum,energy,conserved,baryon,conservation,thermodynamics|current||Explanation of the law of conservation of energy.|htm|seniso|2001-07-19 10:46:55|2001-09-23 22:47:06|mmp@msu (Michigan State University)|default
Conservative Forces|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd124.htm|heat,forces,energy,conservative,work,force,nonconservative,applet,friction,conservation|current||Distinction between conservative and non-conservative forces.|htm|seniso|2001-08-25 15:06:05|2001-09-23 15:42:19|mmp@msu (Michigan State University)|default
Total Mechanical Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd125.htm|forces,energy,energies,conservative,gravity,mechanical,kinetic,conservation,potential|current||Total mechanical energy as the sum of kinetic and potential energies and its
 relation to conservative and non-conservative forces.|htm|seniso|2001-07-19 10:50:18|2001-09-23 15:44:07|mmp@msu (Michigan State University)|default
Example: Swing|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd126.htm|kinetic,pendulum,energy,height,speed,conservation,potential|current||Example using the law of conservation of energy.|htm|seniso|2001-07-19 10:59:58|2001-09-23 15:46:21|mmp@msu (Michigan State University)|default
Example: Ice Block|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd127.htm|trajectory,energy,speed,kinetic,friction,potential|current||Example using conservation of energy principles.|htm|seniso|2001-08-25 15:08:37|2001-09-23 16:50:08|mmp@msu (Michigan State University)|default
Nonconservative Forces|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd128.htm|frictional,forces,energy,energies,loss,nonconservative,mechanical,slope,fractional,kinetic,friction,potential|current||Example using nonconservative forces. Includes a diagram of the example.|htm|seniso|2001-07-19 11:18:00|2001-09-23 17:19:09|mmp@msu (Michigan State University)|default
Power|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd129.htm|time,horsepower,work,watt,rate,power|current||Introduction to power.|htm|seniso|2001-07-19 11:20:19|2001-09-23 17:41:28|mmp@msu (Michigan State University)|default
Example: Accelerating Car|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd130.htm|kg,lb,energy,horsepower,work,speed,accelerate,accelerating,mass,power,friction,lbs,hp|current||Power example.|htm|seniso|2001-07-19 11:24:01|2001-10-08 19:14:42|mmp@msu (Michigan State University)|default
Efficiency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd131.htm|energy,work,efficiency,output,power,input|current||Definition and example of efficiency.|htm|seniso|2001-08-25 15:11:43|2001-09-23 18:48:57|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work |/res/msu/mmp/kap5/cd144.htm|pendulum,kg,energy,gravitational,work,speed,force,accelerate,nonconservative,compressed,kinetic,power,swing,spring,inclined,potential,compression|current||True False practice for chapter 5.|htm|seniso|2001-07-19 16:46:39|2001-09-23 18:50:52|mmp@msu (Michigan State University)|default
Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap5/sum05.htm|energy,gravitational,work,efficiency,kinetic,power,conservation,potential,summary|current||Kinetic energy and work summary page.|htm|seniso|2001-09-23 18:51:33|2001-12-06 15:44:11|mmp@msu (Michigan State University)|default
Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd132.problem|accelerates,acceleration,energy,kinetic,velocity,work|current||Problem:
 Calculation of the work done on a crate.|problem|seniso|2001-08-25 15:20:21|2002-07-21 12:17:06|mmp@msu|default
Work 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd133.problem|bounce,bouncing,energy,gravitational,height,mass,potential|current||Problem:
 Calculation of enrgy loss.|problem|seniso|2001-08-25 15:20:55|2002-07-21 12:17:57|mmp@msu|default
Net Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd134.problem|acceleration,angle,coefficient,energy,force,friction,inclined,kinetic,net,velocity,work|current||Problem:
 Calculation of the net work done on a skier sliding down an incline plane of 
 angle theta.|problem|seniso|2001-08-25 15:21:38|2002-07-21 12:18:52|mmp@msu|default
Average Power|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd135.problem|average,mass,power,speed|current||Problem:
 Calculation of average power.|problem|seniso|2001-08-25 15:22:19|2002-07-21 12:20:42|mmp@msu|default
Work 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd136.problem|angle,energy,gravity,height,kg,mass,potential,work|current||Problem:
 Calculation of the work done by gravity on a mass in a pendulum-type problem.|problem|seniso|2001-08-25 15:22:38|2002-07-21 12:21:35|mmp@msu|default
Power Output|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd137.problem|conservation,efficiency,energy,flow,output,power,watts|current||Problem:
 Calculation of the power output of a hydroelectric dam.|problem|seniso|2001-08-25 15:23:10|2002-07-21 12:22:23|mmp@msu|default
Kinetic Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd138.problem|energy,kinetic,mass,speed,velocity|current||Problem:
 Calculation of the kinetic energy of a baby in a cart.|problem|seniso|2001-08-25 15:23:38|2002-07-21 12:23:06|mmp@msu|default
Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd139.problem|accelerates,energy,hp,mass,power,resistance,velocity,watt,work|current||Problem:
 Calculation of the speed of a car with constant power output.|problem|seniso|2001-08-25 15:24:08|2002-07-21 12:23:41|mmp@msu|default
Work 4|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd140.problem|air,angle,coefficient,drag,force,joules,resistance,velocity,work|current||Problem:
 Calculation of the work done by a puller.|problem|seniso|2001-08-25 15:24:51|2002-07-21 12:24:57|mmp@msu|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd141.problem|displacement,energy,force,potential,spring|current||Problem:
 Calculation of the energy stored in a spring.|problem|seniso|2001-08-25 15:25:39|2002-07-21 12:25:51|mmp@msu|default
Energy 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd142.problem|coefficient,energy,force,frictional,heat|current||Problem:
 Calculation of the energy lost to heat when a truck is brought to rest by a 
 frictional force.|problem|seniso|2001-08-25 15:26:03|2002-07-21 12:26:28|mmp@msu|default
Horsepower|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/problems/cd143.problem|efficiency,energy,engine,potential,power,velocity,watts|current||Problem:
 Calculation of power.|problem|seniso|2001-08-25 15:26:24|2002-08-08 15:52:03|mmp@msu|default
Chapter Front Page Kinetic Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/cd111.htm|energy,work,kinetic|current||Chapter Front Page for Kinetic Energy and Work|htm|seniso|2001-08-25 14:52:19|2001-09-23 15:40:56|mmp@msu (Michigan State University)|default
Force and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd113nc.htm|work,force,displacement|current||Explanation of how to calculate the work done by a force using non-calculus 
 methods.|htm|seniso|2001-08-25 14:54:57|2001-08-31 11:47:31|mmp@msu (Michigan State University)|default
Kinetic Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/cd118nc.htm|equilibrium,forces,energy,stretched,compress,work,force,stretching,compressed,compresses,acceleration,storing,stored,spring,stores,displacement,velocity|current||Kinetic energy stored in a spring|htm|seniso|2001-08-25 15:00:55|2001-08-31 15:11:14|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/d.jpg||current|||jpg|seniso|2001-08-25 15:13:40|2001-08-25 15:13:40|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/ff.jpg||current|||jpg|seniso|2001-08-25 15:14:02|2001-08-25 15:14:02|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Kinetic Energy and Work|/res/msu/mmp/kap5/fig1.gif||current|||gif|seniso|2001-08-25 15:14:19|2001-08-25 15:14:19|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/int.gif||current|||gif|seniso|2001-08-25 15:14:38|2001-08-25 15:14:38|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/r.jpg||current|||jpg|seniso|2001-08-25 15:14:58|2001-08-25 15:14:58|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Kinetic Energy and Work|/res/msu/mmp/kap5/workint.jpg||current|||jpg|seniso|2001-08-25 15:15:21|2001-08-25 15:15:21|mmp@msu (Michigan State University)|default
Kinetic Energy and Work|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap5/calckap5.sequence||current|||sequence|seniso|2001-11-28 18:19:00|2002-02-08 16:47:45|mmp@msu (Michigan State University)|default
Demo: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/demo/cd150.htm|momentum,carts,gun,powder,gunpowder,collide,video,bounce,conserved,explodes,explosion|current|||htm|seniso|2001-08-25 15:27:37|2001-08-25 15:27:37|mmp@msu (Michigan State University)|default
Too Much Gunpowder, Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/demo/cd150a.htm|gunpowder,video|current|||htm|seniso|2001-08-25 15:28:41|2001-08-25 15:28:41|mmp@msu (Michigan State University)|default
Demo: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/demo/cd153.htm|collisions,video,cart,videos|current|||htm|seniso|2001-08-25 15:29:37|2001-08-25 15:29:37|mmp@msu (Michigan State University)|default
Demo: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/demo/cd154.htm|ball,oscillation,period,balls,video|current|||htm|seniso|2001-08-25 15:30:24|2001-08-25 15:30:24|mmp@msu (Michigan State University)|default
Demo: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/demo/cd155.htm|ball,billard,collisions,balls,video,billiard,videos,collision|current|||htm|seniso|2001-08-25 15:31:09|2001-08-25 15:31:09|mmp@msu (Michigan State University)|default
Demo: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/demo/cd156.htm|carts,speed,collisions,video,cart,collision|current|||htm|seniso|2001-08-25 15:31:50|2001-08-25 15:31:50|mmp@msu (Michigan State University)|default
Demo: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/demo/cd157.htm|pendulum,energy,ballistic,bullet,kinetic,video,potential,inelastic,collision|current|||htm|seniso|2001-08-25 15:32:29|2001-08-25 15:32:29|mmp@msu (Michigan State University)|default
Demo: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/demo/cd160.htm|wrench,parabola,balance,clip,video|current|||htm|seniso|2001-08-25 15:33:29|2001-08-25 15:33:29|mmp@msu (Michigan State University)|default
Derivation: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/der/cd1531.htm|derivation,proof|current|||htm|seniso|2001-08-25 15:34:43|2001-08-25 15:34:43|mmp@msu (Michigan State University)|default
Derivation: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/der/cd148.htm|derivation,proof|current|||htm|seniso|2001-08-25 15:35:16|2001-08-25 15:35:16|mmp@msu (Michigan State University)|default
Derivation: Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/der/cd1511.htm|derivation,proof|current|||htm|seniso|2001-08-25 15:35:46|2001-08-25 15:35:46|mmp@msu (Michigan State University)|default
CBI Demo:  Top-level Map|Alex Sakharuk||/res/msu/mmp/kap6/picts/puck.gif||current|||gif|seniso|2001-07-19 14:52:22|2001-07-19 17:21:46|sasha@msu|default
Introduction, |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions, |/res/msu/mmp/kap6/picts/collision.gif||current|||gif|seniso|2001-07-19 16:59:30|2001-07-19 17:47:34|mmp@msu (Michigan State University)|default
|paul Ciske||/res/msu/mmp/kap6/picts/golfer.gif||current|||gif|notset|2001-08-06 13:21:20|2001-08-06 13:55:10|ciskepau@msu|default
Batter|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions, , |/res/msu/mmp/kap6/picts/batter.gif||current||Picture of a batter.|gif|seniso|2001-08-04 08:43:48|2001-12-07 14:29:27|mmp@msu (Michigan State University)|default
|||/res/msu/mmp/kap6/picts/elas1dm.gif||current|||gif|notset|2001-08-06 17:06:10|2001-08-06 17:06:10||default
Kinetic Energy Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/ke_eqn.gif||current||Equation for kinetic energy in terms of momentum and mass.|gif|seniso|2001-10-02 17:09:30|2001-12-07 14:24:46|mmp@msu (Michigan State University)|default
Force Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/force_eqn2.gif||current|||gif|seniso|2001-10-02 17:25:51|2001-10-02 17:25:51|mmp@msu (Michigan State University)|default
Force Equation 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/force_eqn3.gif||current|||gif|seniso|2001-10-02 17:30:46|2001-10-02 17:30:46|mmp@msu (Michigan State University)|default
Force Equation 4|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/force_eqn4.gif||current|||gif|seniso|2001-10-02 17:37:26|2001-10-02 17:37:26|mmp@msu (Michigan State University)|default
Average Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/forceave_eqn.gif||current|||gif|seniso|2001-10-02 17:46:51|2001-10-02 17:46:51|mmp@msu (Michigan State University)|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/velocity_eqn.gif|velocity,equation|current||Equation used for velocity in an example|gif|seniso|2001-10-02 17:47:15|2001-12-07 14:16:46|mmp@msu (Michigan State University)|default
Force Equation |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/force_eqn0.gif|force,momentum, time|current||Equation for force in terms of momentum and time.|gif|seniso|2001-10-02 17:54:38|2001-12-07 14:24:05|mmp@msu (Michigan State University)|default
Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/force_eqn.gif||current|||gif|seniso|2001-10-02 17:57:25|2001-10-02 17:57:25|mmp@msu (Michigan State University)|default
Force Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/force_eqn1.gif||current|||gif|seniso|2001-10-02 18:00:49|2001-10-02 18:00:49|mmp@msu (Michigan State University)|default
Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/force_eqna.gif||current|||gif|seniso|2001-10-02 18:03:42|2001-10-02 18:03:42|mmp@msu (Michigan State University)|default
Velocity Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/velocity_eqn2.gif||current||Equation used for an elastic collision in an example.|gif|seniso|2001-10-02 18:24:40|2001-12-07 14:27:35|mmp@msu (Michigan State University)|default
Velocity Equation 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/velocity_eqn3.gif||current|||gif|seniso|2001-10-02 18:25:07|2001-10-02 18:25:07|mmp@msu (Michigan State University)|default
Velocity Equation 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/velocity_eqn4.gif|velocity,inelastic|current||Equation used to calculate the velocity in a totally inelastic collision|gif|seniso|2001-10-02 18:34:25|2001-12-07 14:22:31|mmp@msu (Michigan State University)|default
Kinetic Energy Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/ke_eqn2.gif||current|||gif|seniso|2001-10-02 18:45:34|2001-10-02 18:45:34|mmp@msu (Michigan State University)|default
Velocity Equation 5|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/velocity_eqn5.gif||current||Equation used to calculate the velocity in a totally inelastic collision.|gif|seniso|2001-10-02 18:46:06|2001-12-07 14:21:57|mmp@msu (Michigan State University)|default
Kinetic Energy Equation 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/ke_eqn3.gif||current|||gif|seniso|2001-10-02 18:58:19|2001-10-02 18:58:19|mmp@msu (Michigan State University)|default
Height Equation |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/height_eqn.gif|height,inelastic|current||Equation used to calculate the height in a totally inelastic collision.|gif|seniso|2001-10-02 19:01:52|2001-12-07 14:21:12|mmp@msu (Michigan State University)|default
Asteroid|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/asteroid.gif||current||Picture of an asteroid being broken up.|gif|seniso|2001-12-07 14:28:49|2001-12-07 14:28:49|mmp@msu (Michigan State University)|default
External Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/extforce_eqn.gif||current|||gif|seniso|2001-10-05 17:38:51|2001-10-05 17:38:51|mmp@msu (Michigan State University)|default
External Force Equation (non-calculus)|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/extforcenc_eqn.gif|force|current||Equation for the external force. (non-calculus)|gif|seniso|2001-10-05 17:45:13|2001-12-07 14:28:22|mmp@msu (Michigan State University)|default
Center of Mass Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/cm_eqn.gif|center,of mass|current||Equation for the center of mass.|gif|seniso|2001-10-05 17:55:22|2001-12-07 14:29:55|mmp@msu (Michigan State University)|default
Center of Mass Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/cm2_eqn.gif||current|||gif|seniso|2001-10-05 17:58:37|2001-10-05 17:58:37|mmp@msu (Michigan State University)|default
X-Y Center of Mass Equations|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/picts/xy_cm_eqn.gif||current|||gif|seniso|2001-10-08 16:23:25|2001-10-08 16:23:25|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Momentum and Collisions|/res/msu/mmp/kap6/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap6/kap6.sequence||current|added impulse example page cd151a, deleted extra link||sequence|seniso|2001-08-04 08:48:33|2001-08-07 13:13:46|mmp@msu (Michigan State University)|default
Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd146.htm|motion,collisions,momentum,energy,action,force|current||Introduction to chapter 6 and momentum.|htm|seniso|2001-07-19 16:59:30|2001-10-08 17:34:11|mmp@msu (Michigan State University)|default
Definition of Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd147.htm|kg,vector,mass,momentum,vectors,linear,velocity|current||Definition and examples of momentum.|htm|seniso|2001-08-24 13:30:40|2001-10-08 17:34:35|mmp@msu (Michigan State University)|default
Momentum, Force, and  Kinetic Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd148.htm|masses,momentum,energy,newtons,force,relation,kinetic,mass,external|current||Relations between momentum, kinetic energy and force.|htm|seniso|2001-08-24 13:32:40|2001-10-12 23:14:30|mmp@msu (Michigan State University)|default
Addition of Momenta|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd149.htm|momentum,direction,mass,velocities,linear,velocity,momenta|current||Example using the concept of addition of linear momentum vectors.|htm|seniso|2001-07-19 17:29:14|2001-10-08 17:51:47|mmp@msu (Michigan State University)|default
Momentum Conservation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd150.htm|momentum,forces,newtons,force,linear|current||Explanation of conservation of momentum.|htm|seniso|2001-08-06 13:54:10|2001-10-12 23:15:40|mmp@msu (Michigan State University)|default
Impulse|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd151.htm|momentum,impulse,force,impact|current||Explanation of impluse as the change in momentum. Includes as derivation of
 the relationship between average force, time interval, and impulse.|htm|seniso|2001-07-19 17:38:28|2001-10-08 18:02:32|mmp@msu (Michigan State University)|default
Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd152.htm|collide,collision,collisions,conservation,conserved,elastic,energies,energy,force,forces,inelastic,kinetic,momenta,momentum,vector,velocities|current||Explanation of elastic vs. inelastic collsions.|htm|seniso|2001-07-19 18:41:19|2002-10-18 15:49:37|mmp@msu (Michigan State University)|default
Elastic Collisions in 1D |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions |/res/msu/mmp/kap6/cd153.htm|masses,momentum,elastically,collisions,collide,kinetic,velocities,elastic,collision|current||Example of elastic collsions in one-dimension with an illustration of the 
 problem.  Includes as derivation of the answer and a demonstration.|htm|seniso|2001-08-06 17:07:48|2001-10-08 18:07:41|mmp@msu (Michigan State University)|default
Elastic Collisions in 1D - Example |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd154.htm|momentum,energy,collides,elastically,collisions,velocities,elastic,collision,velocity|current||Example of elastic collisions in one-dimension including a demonstration.|htm|seniso|2001-08-06 13:54:48|2001-10-08 18:09:07|mmp@msu (Michigan State University)|default
Elastic Collisions in 2D|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd155.htm|momentum,energy,collisions,elastic,collision|current||Example and illustration of elastic collisions in two-dimensions.  Includes
 a demonstration of an elastic, 2-D collsion.|htm|seniso|2001-08-24 13:37:52|2001-10-23 13:11:28|mmp@msu (Michigan State University)|default
Totally Inelastic Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd156.htm|colliding,collisions,inelastic,momentum,stick,totally,velocity|current||Explanation and illustration of totally inelastic collisions.  Also includes
 a demo.|htm|seniso|2001-08-24 14:39:21|2002-10-17 17:03:27|mmp@msu (Michigan State University)|default
Ballistic Pendulum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd157.htm|energy,sticks,height,conserved,impact,conversion,potential,inelastic,collision,velocity|current||Example and illustration of a completely inelastic collision.|htm|seniso|2001-08-24 13:39:48|2001-10-08 18:16:48|mmp@msu (Michigan State University)|default
Applet: Airtrack|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd157a.htm|colliding,simulation,dimension,elasticity,collisions,applet,kinetic,simulates,elastic,inelastic,collision|current||This applet simulates collisions in one dimension. |htm|seniso|2001-08-24 13:40:26|2001-10-08 18:15:43|mmp@msu (Michigan State University)|default
Center of Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd158.htm|centerofmass,center,momentum,motion,forces,newtons,force,vector,mass,law,external|current||Explanation of how to calculate the center of mass.|htm|seniso|2001-08-24 13:48:36|2001-10-08 18:18:02|mmp@msu (Michigan State University)|default
Center of Mass - Examples|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd159nc.htm|center,forces,distance,mass|current||Center of mass examples including an illustration.|htm|seniso|2001-08-24 13:51:22|2001-10-08 16:28:13|mmp@msu (Michigan State University)|default
Center of Mass - Remarks|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd160nc.htm|centerofmass,center,equilibrium,fosbury,height,suspension,particles,potential,suspending|current||Center of mass concepts including a demonstration.|htm|seniso|2001-08-24 13:52:22|2001-10-08 18:22:38|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/cd173.htm|center,system,momentum,energy,force,dimensions,accelerate,collisions,kinetic,mass,elastic,inelastic,collision,velocity|current||True False practice for chapter 6.|htm|seniso|2001-08-24 13:53:04|2001-10-08 18:23:35|mmp@msu (Michigan State University)|default
Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap6/sum06.htm|momentum,collisions,ineleastic,collision|current|||htm|seniso|2001-08-24 13:53:30|2001-08-24 13:53:30|mmp@msu (Michigan State University)|default
Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd161.problem|coefficient,collision,force,friction,inelastic,momentum,velocity,work|current||Problem:
 Calculation of the speed of a car during a totally inelastic collision.|problem|seniso|2001-08-24 14:23:05|2002-07-21 14:49:29|mmp@msu|default
Speed 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd162.problem|collide,collision,collisions,elastic,mass,masses,speed|current||Problem:
 Calculation of the speed of a car in an elastic collision.|problem|seniso|2001-08-24 14:24:11|2002-07-21 14:50:57|mmp@msu|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd163.problem|collision,energy,kinetic,lost,momentum,velocity|current||Problem:
 Calculation of the energy lost in a collsion.|problem|seniso|2001-08-24 15:24:31|2002-10-17 16:59:27|mmp@msu|default
Impulse|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd164.problem|impulse,momentum,motion,projectile,range,velocity|current||Problem:
 Calculation of the impulse received by a football.|problem|seniso|2001-08-24 14:24:59|2002-07-21 14:52:02|mmp@msu|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd165.problem|collides,collision,conservation,friction,gh,height,hf,inelastic,momentum|current||Problem:
 Calculation of the final height of two railroad cars in a totally inelastic 
 collision.|problem|seniso|2001-08-24 14:25:25|2002-07-21 14:52:38|mmp@msu|default
Average Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd166.problem|average,force,impulse,momentum,velocity|current||Problem:
 Calculation of the average force on a ball.|problem|seniso|2001-08-24 14:25:46|2002-07-21 14:53:09|mmp@msu|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd167.problem|asteroid,bomb,conservation,energies,energy,exploding,explosion,joules,kinetic,momentum|current|||problem|seniso|2001-08-24 14:26:03|2002-07-21 14:53:57|mmp@msu|default
Change in Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd168.problem|conserved,friction,mass,momentum,speed,velocities,velocity|current||Problem:
 Calculation of the change in velocity of a railroad flatcar.|problem|seniso|1969-12-31 19:32:49|2002-10-16 15:06:29|mmp@msu|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd169.problem|average,force,impulse,momentum|current||Problem:
 Calculation of average force. |problem|seniso|2001-08-24 14:26:52|2002-07-21 14:55:17|mmp@msu|default
Distance|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd170.problem|collision,conservation,energy,inelastic,momentum,velocity|current||Problem:
 Calculation of distance traveled in a totally inelastic collision.|problem|seniso|2001-08-24 14:27:20|2002-07-21 14:55:59|mmp@msu|default
Change in Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd171.problem|angle,angles,change,magnitude,momentum,velocity,ycomponent|current||Problem:
 Calculation of the magnitude of the change in momentum of a billiard ball.|problem|seniso|2001-08-24 14:27:45|2002-07-21 14:56:45|mmp@msu|default
Distance 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd172.problem|center,components,mass|current||Center of mass problem.|problem|seniso|2001-08-24 14:28:11|2002-07-21 14:57:30|mmp@msu|default
Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap6/problems/cd161a.problem|ball,force,impulse,mass,momentum,speed|current||Problem:
 Calculation of the final speed of a ball in an impulse example.|problem|seniso|2001-08-06 14:34:05|2002-07-21 14:50:21|mmp@msu (Michigan State University)|default
Impulse Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/cd151a.htm|momentum,impulse,force,mass,velocity|current||Example using the concept of impulse.|htm|seniso|2001-08-04 08:43:48|2001-10-08 18:05:01|mmp@msu (Michigan State University)|default
Momentum and Collisions Front Page|Gerd Kortemeyer|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/cd145.htm||current||Front page for chapter 6.|htm|seniso|2001-08-24 13:29:25|2001-10-08 17:33:34|mmp@msu (Michigan State University)|default
Non-calc Version of cd148|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/cd148nc.htm|masses,momentum,energy,newtons,force,kinetic,mass,external|current|||htm|seniso|2001-08-24 13:33:12|2001-10-08 17:50:30|mmp@msu (Michigan State University)|default
Conservation of Linear Momentum : Non-Calculus Version|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/cd150nc.htm|momentum,forces,force,linear,conservation,external|current||Explanation of conservation of linear momentum.|htm|seniso|2001-08-24 13:34:45|2001-10-08 17:57:53|mmp@msu (Michigan State University)|default
Virtual Billiards|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/cd155a.htm|objects,applet,mass,billiards,collision,velocity|current||This applet simulates a simple two dimensional collision between two objects of
 equal mass.|htm|seniso|2001-08-24 13:38:29|2001-10-08 18:12:48|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/cd158nc.htm|centerofmass,center,momentum,motion,forces,force,mass,external,calculate,momenta|current||Explanation of how to calculate center of mass without the use of calculus.|htm|seniso|2001-08-24 13:49:31|2001-10-08 18:18:27|mmp@msu (Michigan State University)|default
Center of Mass Examples|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/cd159.htm|center,forces,rm,coordinate,mass|current||Example of how to calculate center of mass.  Includes an illustration of the 
 problem.|htm|seniso|2001-08-24 13:50:51|2001-10-08 18:19:32|mmp@msu (Michigan State University)|default
Center of Mass Remarks|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Momentum and Collisions|/res/msu/mmp/kap6/cd160.htm|centerofmass,center,equilibrium,energy,motions,particles,potential|current||Center of mass concepts including a demonstration.|htm|seniso|2001-08-24 13:51:44|2001-10-08 18:21:09|mmp@msu (Michigan State University)|default
Momentum and Collisions|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap6/calckap6.sequence||current|Deleted 2 problems that occur in calckap4.sequence||sequence|seniso|2001-08-04 08:48:33|2002-02-18 14:25:25|mmp@msu (Michigan State University)|default
Centripetal Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/der/cd1811.htm|acceleration,centripetal,proof,derivation|current||Derivation of centripetal acceleration.|htm|seniso|2001-10-12 22:56:47|2001-10-12 23:11:55|mmp@msu (Michigan State University)|default
Derivation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/der/cd1921.htm|derivation|current||Derivation of a satellite's distance above the ground.|htm|seniso|2001-10-12 22:58:02|2001-10-12 23:13:03|mmp@msu (Michigan State University)|default
Kepler's Laws|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/der/cd1901.htm|proof|current||Proof of Kepler's laws.|htm|seniso|2001-10-12 23:11:20|2001-10-12 23:12:42|mmp@msu (Michigan State University)|default
Kepler's Laws|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/der/cd190.mov||current|||mov|seniso|2001-10-12 23:12:19|2001-10-12 23:12:19|mmp@msu (Michigan State University)|default
Change in Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/kap7/picts/angle.gif||current|||gif|seniso|2001-07-20 14:54:48|2001-07-20 15:19:04|mmp@msu|default
Polar Coordinates, |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion, |/res/msu/mmp/kap7/picts/angvel.gif|polar,cartesian,coordinates|current|||gif|seniso|2001-07-20 15:08:15|2001-07-20 15:45:22|mmp@msu (Michigan State University)|default
|||/res/msu/mmp/kap7/picts/apple.gif||current|||gif|notset|2001-08-04 08:35:39|2001-08-04 08:35:39||default
Crater|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/crater.gif||current||Picture of a crater on the moon.|gif|seniso|2001-12-07 14:49:32|2001-12-07 14:49:32|mmp@msu (Michigan State University)|default
Moon|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/moon.gif||current||Picture of a moon|gif|seniso|2001-12-07 14:35:24|2001-12-07 14:35:24|mmp@msu (Michigan State University)|default
Circular Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/circmot1.gif||current|||gif|seniso|2001-12-07 14:48:29|2001-12-07 14:48:29|mmp@msu (Michigan State University)|default
Angular Displacement Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/omega_eqn.gif||current|||gif|seniso|2001-10-10 13:17:30|2001-10-10 13:17:30|mmp@msu (Michigan State University)|default
Unit Vector|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/e_r.gif||current||Unit vector in the direction of r.|gif|seniso|2001-10-12 19:31:52|2001-10-12 19:31:52|mmp@msu (Michigan State University)|default
Gravity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/g_eqn.gif||current|||gif|seniso|2001-10-12 20:06:18|2001-10-12 20:06:18|mmp@msu (Michigan State University)|default
Gravitational Potential Energy Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/pe_eqn.gif||current|||gif|seniso|2001-10-12 20:14:28|2001-10-12 20:14:28|mmp@msu (Michigan State University)|default
Kinetic Energy Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/ke_eqn.gif||current|||gif|seniso|2001-10-12 20:46:20|2001-10-12 20:46:20|mmp@msu (Michigan State University)|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/velocity_eqn.gif||current|||gif|seniso|2001-10-12 21:01:22|2001-10-12 21:01:22|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/accel.gif||current||Picture showing the radial and tangential accelerations |gif|seniso|2001-12-07 14:30:59|2001-12-07 14:30:59| mmp@msu (Michigan State University)|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/vtangen757.gif|tangential,velocity|current||Picture illustrating the tangential velocity for circular motion|gif|seniso|2001-12-07 14:33:59|2001-12-07 14:33:59|mmp@msu (Michigan State University)|default
Gravitation| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/gravity1.gif||current||Picture illustrating Newton's law of gravitation.|gif|seniso|2001-12-07 14:46:01|2001-12-07 14:46:01|mmp@msu (Michigan State University)|default
Gravitation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/gravity1331.gif||current||Picture illustrating Newton's law of gravitation|gif|seniso|2001-12-07 14:47:48|2001-12-07 14:47:48|mmp@msu (Michigan State University)|default
Earth|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/ekin.gif||current||Picture of the Earth and the moon.|gif|seniso|2001-12-07 14:49:02|2001-12-07 14:49:02|mmp@msu (Michigan State University)|default
Asteroid Animation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/picts/asteroid_anim.gif||current||Asteroid Animation|gif|seniso|2001-12-07 14:50:19|2001-12-07 14:50:19|mmp@msu (Michigan State University)|default
Applet: Orbits|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/orbiter/orbit.htm|satellite,applet,orbit,velocity|current||Applet that allows you to put your own satellite into orbit around Earth|htm|seniso|2001-10-12 22:59:07|2001-10-12 22:59:07|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Circular Motion|/res/msu/mmp/kap7/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Circular Motion| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/kap7/kap7.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Introduction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion |/res/msu/mmp/kap7/cd175.htm|circle,moon,revolution,earth,rotations,rotates,siderian,revolves,solar,side,rotation,sun|current||Introduction to circular motion including illustrations of Earth's rotation and
 revolution.|htm|seniso|2001-07-20 15:05:43|2001-10-10 12:57:35|mmp@msu (Michigan State University)|default
Polar Coordinates|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd176.htm|polar,cartesian,coordinates|current||Explanation of polar coordinates including a picture illustrating the use of 
 r and theta.|htm|seniso|2001-07-20 15:08:15|2001-10-12 23:07:53|mmp@msu (Michigan State University)|default
Angular Measure |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion |/res/msu/mmp/kap7/cd177.htm|measures,length,angular,radian,arc,rad,radius,radians|current||Introduction to angular measure with a diagram showing the relationship between
 arc length and radius.
 |htm|seniso|2001-07-20 15:18:33|2001-10-23 13:12:56|mmp@msu (Michigan State University)|default
Angular Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd178.htm|angle,angular,righthand,vectors,vector,thumb,rule,rotation,velocity|current||Introduction to angular velocity with a diagram of the right-hand rule which 
 shows how to get the direction of the angular velocity vector.|htm|seniso|2001-07-20 15:26:49|2001-10-10 13:25:06|mmp@msu (Michigan State University)|default
Tangential and Angular Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd179.htm|tangential,motion,angular,vector,velocities,linear,displacement,velocity|current||Introduction to angular and tangential speed.|htm|seniso|2001-07-20 16:41:13|2001-10-12 19:13:07|mmp@msu (Michigan State University)|default
Period and Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd180.htm|period,hertz,angular,revolution,speed,seconds,rotations,rotation,hz,velocity,frequency|current||Relations between period and frequency.|htm|seniso|2001-07-20 15:50:49|2001-10-12 19:27:54|mmp@msu (Michigan State University)|default
Centripetal Acceleration |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd181.htm|tangential,center,ac,acceleration,centripetal,uniform,velocity|current||Explanation of centripetal acceleration with a proof of its derivation.  |htm|seniso|2001-07-20 15:52:39|2001-10-12 19:36:36|mmp@msu (Michigan State University)|default
Example: Centripetal Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd182.htm|radial,force,radius,circular,static,coefficient,friction,centripetal|current||Example using the concepts of centripetal and frictional forces.|htm|seniso|2001-07-20 16:41:33|2001-10-12 19:40:31|mmp@msu (Michigan State University)|default
Angular Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd183.htm|tangential,circular,acceleration,vector,motion,angular,centripetal,ac,velocity|current||Relations between angular and tangential acceleration including a demonstration of
 the concept of angular acceleration. |htm|seniso|2001-07-20 15:58:45|2001-10-12 19:45:37|mmp@msu (Michigan State University)|default
Linear and Circular Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd184.htm|circular,acceleration,motion,angular,linear,displacement,velocity,kinematic|current||Linear and circular motion equations.|htm|seniso|2001-08-24 13:59:29|2001-10-12 19:47:51|mmp@msu (Michigan State University)|default
Law of Gravitation |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd185.htm|centerofmass,acceleration,forces,gravitation,gravitationally,law,gravitational,laws,gravity,particles,newtons,spheres,newton,force,orbits|current||Introduction to Newton's Law of gravitation including an illustration.|htm|seniso|2001-07-20 16:02:04|2001-10-12 19:51:22|mmp@msu (Michigan State University)|default
Gravity near Earth's Surface|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd186.htm|acceleration,earth,force,gr,gravitation,gravitational,gravity,law,newtons,sphere,weight|current||Concept of gravity near the Earth's surface.|htm|seniso|2001-07-20 17:04:37|2002-10-16 11:42:58|mmp@msu (Michigan State University)|default
Gravitational Potential Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd187.htm|acceleration,earth,potentials,energy,distance,gravitational,potential|current||Introduction to gravitational potential energy.|htm|seniso|2001-07-20 16:10:21|2001-10-12 20:27:39|mmp@msu (Michigan State University)|default
Example: Asteroid Impact|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd188.htm|energy,gravitationally,impact,kinetic,mass,potential|current||Example calculating the kinetic energy of an asteroid.|htm|seniso|2001-07-20 17:13:31|2002-10-16 15:04:03|mmp@msu (Michigan State University)|default
Example: Escape Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd189.htm|kinetic,angle,energy,distance,gravitational,speed,escape|current||Example calculating minimum speed one needs to escape permanently from the 
 gravitational pull of the Earth.|htm|seniso|2001-07-20 16:15:05|2001-10-12 21:02:57|mmp@msu (Michigan State University)|default
Kepler's Laws|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd190.htm|brahe,gravitational,geocentric,orbits,circular,galilei,galileo,planet,law,planets,constant,keplers,kepler|current||Kepler's 3 laws including an illustration and derivation of the 3rd law.  
 |htm|seniso|2001-07-20 16:19:26|2001-10-12 21:12:17|mmp@msu (Michigan State University)|default
Example: Mass of the Sun|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion |/res/msu/mmp/kap7/cd191.htm|earth,mass,law,sun,keplers|current||Example calculating the mass of the sun using Kepler's 3rd Law.|htm|seniso|2001-07-20 16:23:52|2001-10-12 21:55:54|mmp@msu (Michigan State University)|default
Geo-Stationary Orbits|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd192.htm|geostationary,period,equator,satellite,orbits,earth,satellites,orbit,tv,axis,rotation,animation,plane|current||Introduction to Geo-stationary orbits.  |htm|seniso|2001-07-20 16:27:24|2001-10-23 13:15:55|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/cd205.htm|radius,planetary,circular,acceleration,frictional,orbit,forces,period,mg,rotates,orbital,gravity,swing,centripetal,newtons,speed,satellite,force,plane,velocity|current||True False practice for circular motion.|htm|seniso|2001-07-20 16:29:07|2001-10-12 21:59:14|mmp@msu (Michigan State University)|default
Circular Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap7/sum07.htm|energy,circular,kinematics,centripetal,velocity|current|||htm|seniso|2001-08-24 14:06:41|2001-08-24 14:06:41|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd193.problem|motion,speed,circular,magnitude,acceleration,centripetal,constant|current||Problem:
 Calculation of the magnitude of the acceleration of a runner on a circular
 track. |problem|seniso|2001-08-24 14:28:47|2001-10-08 19:36:48|mmp@msu|default
Radius of Curvature|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd194.problem|speed,acceleration,centripetal,curvature|current||Problem:
 Calculate the smallest radius of curvature.|problem|seniso|2001-08-24 14:29:03|2001-10-08 19:39:04|mmp@msu|default
Radius of Curvature 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd195.problem|speed,force,acceleration,friction,centripetal,curvature|current||Problem:
 Calculation of the smallest radius of curvature a truck can take on a circular
 track.|problem|seniso|2001-08-24 14:29:21|2001-10-08 19:40:28|mmp@msu|default
Angular Frequency|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd196.problem|frictional,angular,force,friction,centripetal,velocity|current||Problem:
 Calculation of the minumum angular velocity of rotating cylinder.|problem|seniso|2001-08-24 14:29:44|2001-10-08 19:42:05|mmp@msu|default
Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd197.problem|pendulum,swings,circle,angle,speed,conical,mass,swing|current||Problem:
 Calculation of the speed of a mass on a conical pendulum.|problem|seniso|2001-08-24 14:30:06|2001-10-17 15:19:41|mmp@msu|default
Minimum Height|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd198.problem|minimum,energy,energies,height,force,mechanical,acceleration,kinetic,conserved,friction,conservation,centripetal,potential,weight,velocity|current||Mechanical energy and centripetal force problem.|problem|seniso|2001-08-24 14:30:31|2001-10-08 19:48:02|mmp@msu|default
Height|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd199.problem|energy,height,work,gravity,force,mass,theorem|current||Problem using concepts of the work-energy theorem.|problem|seniso|2001-08-24 14:31:09|2001-10-08 19:50:32|mmp@msu|default
Briggie's Orbit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd200.problem|radius,orbit,law,keplers|current||Problem using the concepts of Kepler's 3rd law.|problem|seniso|2001-08-24 14:31:44|2001-10-08 19:52:21|mmp@msu|default
Orbital Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd201.problem|geostationary,speeds,orbital,speed,satellite,radius,satellites,orbit|current||Problem:
 Calculation of the orbital speed of a satellite in a geo-stationary orbit.|problem|seniso|2001-08-24 14:32:11|2001-10-08 19:54:03|mmp@msu|default
Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd202.problem|energy,satellite,satellites,orbit,kinetic,mass,orbiting|current||Problem:
 Calculation of the kinetic energy of a satellite in orbit.|problem|seniso|2001-08-24 14:32:34|2001-10-08 19:55:50|mmp@msu|default
Angular Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd203.problem|revolutions,acceleration,angular,revolution,accelerates,speed,radianss,radians|current||Problem:
 Calculation of the angular acceleration of a record.|problem|seniso|2001-08-24 14:32:57|2001-10-08 19:56:57|mmp@msu|default
Percent Error|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap7/problems/cd204.problem|error,fractional,percent,percentage|current||Problem:
 Calculation of percent error.|problem|seniso|2001-08-24 14:33:18|2001-10-12 22:00:01|mmp@msu|default
Golf Ball|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion, |/res/msu/mmp/kap7/cd183a.htm|acceleration,angular,path|current||Hitting a golf ball as an illustration of angular acceleration.|htm|seniso|2001-07-20 15:59:49|2001-10-12 19:46:57|mmp@msu (Michigan State University)|default
Applet: Seasons|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/cd190b.htm|temperatures,orbital,revolution,orbit,axis,lattitude,sun,elliptical,temperature,seasons,radiation,ellipse,solar,rotation,seasonal,plane,rays|current||Applet helping to visualize the origin of the seasonal variation of 
 temperature.|htm|seniso|2001-07-20 16:21:54|2001-10-23 13:14:36|mmp@msu (Michigan State University)|default
Chapter Frontpage|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/cd174.htm|circular,motion,chapter|current||Circular motion front page.|htm|seniso|2001-08-24 13:54:21|2001-10-10 12:54:06|mmp@msu (Michigan State University)|default
Angular and Tangential Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/cd179nc.htm|tangential,circular,vector,motion,velocities,angular,speed,arc,displacement,velocity|current||Introduction to angular and tangential speed.|htm|seniso|2001-08-24 13:56:37|2001-10-12 19:20:47|mmp@msu (Michigan State University)|default
Gravitational Potential Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/cd187nc.htm|energy,mgh,energies,gravitational,acceleration,potential|current||Introduction to gravitational potential energy.|htm|seniso|2001-08-24 14:01:32|2001-10-12 20:36:00|mmp@msu (Michigan State University)|default
News Article|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/cd188_news.htm|colliding,object,asteroids,astronomers,earth,astronomical,asteroid,collision|current||Mile-wide asteroid on course for near-miss with Earth -- news article.|htm|seniso|2001-08-24 14:02:09|2001-10-12 20:49:39|mmp@msu (Michigan State University)|default
Orbit Applet|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Circular Motion|/res/msu/mmp/kap7/cd190a.htm|satellite,applet,vector,orbit,velocity|current||Applet representing the orbit of a satellite around Earth.|htm|seniso|2001-08-24 14:03:44|2001-10-12 21:14:10|mmp@msu (Michigan State University)|default
Circular Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap7/calckap7.sequence||current|||sequence|seniso|2001-11-28 18:19:40|2002-02-18 17:46:20|mmp@msu (Michigan State University)|default
Ferris Wheel|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/demo/ferris.mov||current|||mov|seniso|2001-10-08 20:56:42|2001-10-08 20:56:42|mmp@msu (Michigan State University)|default
Hoop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/demo/hoop.mov||current|||mov|seniso|2001-10-08 20:57:14|2001-10-08 20:57:14|mmp@msu (Michigan State University)|default
Applet: Torque|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/demo/cd210.htm|torque,counterclockwise,clockwise|current||Torque applet.|htm|seniso|2001-10-19 16:30:06|2001-10-19 16:30:06|mmp@msu (Michigan State University)|default
Conservation of Angular Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/demo/cd221a.htm|momentum,angular,moment,weights,demonstration,direction,inertia,friction,conservation,rotation,velocity|current||Conservation of Angular Momentum demo.|htm|seniso|2001-10-19 16:31:34|2001-10-19 16:31:34|mmp@msu (Michigan State University)|default
Precession|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/demo/cd221b.htm|momentum,angular,gravity,rotating,precession,rotation|current||Precession demo.|htm|seniso|2001-10-19 16:32:52|2001-10-19 16:32:52|mmp@msu (Michigan State University)|default
Roller Race|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/demo/cd219.htm||current|||htm|seniso|2001-10-19 16:34:18|2001-10-19 16:34:18|mmp@msu (Michigan State University)|default
Ferris Wheel Movie|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/demo/ferris.html||current||animation of a ferris wheel|html|seniso|2001-10-23 12:55:29|2001-10-23 13:29:36|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
|Felicia Berryman, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/demo/hoop.html||current|||html|seniso|2001-10-23 13:56:14|2001-10-23 13:56:14|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Mment of Inertia Apparatus|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation Moment of Inertia|/res/msu/mmp/kap8/picts/mominertia.jpg|Lab,set up|current|||jpg|seniso|2001-08-20 13:51:37|2001-08-20 13:51:37|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Reaction Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/picts/reaction_force.gif||current|||gif|seniso|2001-10-19 01:38:34|2001-10-19 01:38:34|mmp@msu (Michigan State University)|default
Reaction Force Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/picts/reactionforce_eqn.gif||current|||gif|seniso|2001-10-19 01:46:59|2001-10-19 01:46:59|mmp@msu (Michigan State University)|default
Moment of Interia Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/picts/inertia_eqn.gif||current|||gif|seniso|2001-10-19 01:56:10|2001-10-19 01:56:10|mmp@msu (Michigan State University)|default
Moment of Inertia Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/picts/inertia_eqn2.gif||current|||gif|seniso|2001-10-19 01:57:56|2001-10-19 01:57:56|mmp@msu (Michigan State University)|default
Moment of Inertia Equation 3|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/picts/inertia_eqn3.gif||current|||gif|seniso|2001-10-19 02:05:12|2001-10-19 02:05:12|mmp@msu (Michigan State University)|default
Angular Acceleration Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/picts/alpha_eqn.gif||current|||gif|seniso|2001-10-19 02:10:10|2001-10-19 02:10:10|mmp@msu (Michigan State University)|default
Torque Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/picts/tau_eqn2.gif||current|||gif|seniso|2001-10-19 15:16:57|2001-10-19 15:16:57|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/picts/inertia.gif||current|||gif|seniso|2001-12-05 15:55:29|2001-12-05 15:55:29|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Applet: Stacking Blocks|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/statics/cd213a.htm|equilibrium,torques,forces,gravity,supported,applet,stability,bodies,support|current||Static equilibrium applet.|htm|seniso|2001-10-19 15:34:39|2001-10-19 15:34:39|mmp@msu (Michigan State University)|default
Applet: Statics-Beam|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/beam/beam.htm|forces,java,gravity,force,applet,beam|current|||htm|seniso|2001-08-24 14:34:18|2001-08-24 14:34:18|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Rotation|/res/msu/mmp/kap8/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Rotation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap8/kap8.sequence||current|||sequence|seniso|2001-10-28 07:49:38|2001-10-28 08:30:53|mmp@msu (Michigan State University)|default
Rotational Motion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd207.htm|masses,motion,object,rotational,kinematic,objects,inertia,mass,rotating|current||Introduction to rotational motion.|htm|seniso|2001-08-24 14:08:50|2001-10-12 23:16:42|mmp@msu (Michigan State University)|default
Rolling Wheel |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd208.htm|slide,angular,rotational,translating,ra,vectors,acceleration,slipping,rotates,linear,rotating,wheel,slides,rolling,velocity,rotate,translational|current||Relationships between translational and rotational motion with an applet of the 
 rolling wheel.|htm|seniso|2001-07-23 08:35:08|2001-10-12 23:18:10|mmp@msu (Michigan State University)|default
Torque|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd209.htm|angular,torque,counterclockwise,force,righthandrule,clockwise,direction,acceleration,vector,inertia,perpendicular,cross|current||Introduction to torque including a diagram uaing the right-hand rule to determine
 the direction of the torque.|htm|seniso|2001-07-23 08:35:41|2001-10-12 23:33:42|mmp@msu (Michigan State University)|default
Examples: Torque|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd209a.htm|torques,moment,torque,arm,force,perpendicular,rotation|current||Examples of torque with diagrams of clockwise and counter clockwise rotation.|htm|seniso|2001-08-24 14:10:01|2001-10-19 00:47:27|mmp@msu (Michigan State University)|default
Rotational Equilibrium|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd210.htm|equilibrium,angular,torque,counterclockwise,rotational,clockwise|current||Introduction to rotational equilibrium.|htm|seniso|2001-07-23 08:36:18|2001-10-19 00:49:40|mmp@msu (Michigan State University)|default
Example: Balance |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd211.htm|equilibrium,torques,balance,rotation,rotational,weight|current||Example using the concepts of torque and rotational equilibrium.|htm|seniso|2001-07-23 08:36:58|2001-10-19 00:53:11|mmp@msu (Michigan State University)|default
Example: Ladder|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd212.htm|kg,center,equilibrium,frictional,torques,forces,mass,gravity,force,rotational,translational|current||Example using the concepts of rotational and translational equilibrium.|htm|seniso|2001-08-24 14:13:23|2001-10-19 01:49:30|mmp@msu (Michigan State University)|default
Stability and Center of Gravity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd213.htm|stable,unstable,center,equilibrium,torques,motion,forces,static,mass,gravity,neutral,force,stability,mechanical|current||Concepts of stability and center of gravity.  Includes diagrams representing the 
 three types of equilibrium-- stable, unstable, and
 neutral.
 |htm|seniso|2001-07-23 08:37:34|2001-10-19 15:06:28|mmp@msu (Michigan State University)|default
Rotational Dynamics |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation |/res/msu/mmp/kap8/cd214.htm|tangential,radius,shape,equilibrium,acceleration,inertia,angular,radial,moment,rotating,rigid,torque,rotation,arm,rotational,rotate,dynamics|current||Introduction to and illustration of rotational dynamics.|htm|seniso|2001-07-23 08:38:12|2001-10-19 02:01:15|mmp@msu (Michigan State University)|default
Moment of Inertia|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd215.htm|aluminum,inertia,axis,moment,weights,rotation,displacement,disks,weight,frequency,moments|current||Introduction to moment of inertia including diagrams of moments of inertia of 
 common objects. |htm|seniso|2001-07-23 08:39:20|2001-10-19 15:08:58|mmp@msu (Michigan State University)|default
Parallel Axis Theorem|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd216.htm|inertia,axis,parallel,rotation,theorem|current||Introduction and illustration of the parallel axis thm.|htm|seniso|2001-07-23 08:39:57|2001-10-19 02:00:15|mmp@msu (Michigan State University)|default
Example: Rotational Dynamics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd217.htm|torques,forces,angular,torque,ra,rt,acceleration,inertia,ia|current||Example calculating the angular acceleration of a pulley.|htm|seniso|2001-08-24 14:16:59|2001-10-25 14:51:47|mmp@msu (Michigan State University)|default
Applet: Atwood Machine|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd217a.htm|rotational,acceleration,rotation|current||Atwood machine applet.|htm|seniso|2001-08-24 14:17:31|2001-10-19 02:37:18|mmp@msu (Michigan State University)|default
Rotational Work and Kinetic Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation, |/res/msu/mmp/kap8/cd218.htm|translation,kinetic,energy,inertia,moment,linear,work,rotating,wo,rotation,rotational,translational,moments|current||Relations between rotational work and kinetic energy.|htm|seniso|2001-07-23 08:40:22|2001-10-19 02:44:57|mmp@msu (Michigan State University)|default
Example: Rolling|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd219.htm|sphere,velocities,linear,friction,gravity,rolls,inclined,rotation,speed,inclines,spheres,plane,rolling,roll,incline|current||Example calculating the linear speed of the center of mass of a sphere.
 Includes a demonstration on linear speed.|htm|seniso|2001-07-23 08:40:55|2001-10-19 15:10:49|mmp@msu (Michigan State University)|default
Angular Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd220.htm|direction,vectors,momentum,vector,motion,kinetic,inertia,angular,perpendicular,moment,righthand,torque,rotation,rotational,velocity,kinematic|current||Concepts of angular momentum. Inlcudes a diagram illustrating how to use the 
 right-hand rule to determine the direction of the angular momentum vector.|htm|seniso|2001-07-23 08:41:40|2001-10-19 15:25:44|mmp@msu (Michigan State University)|default
Conservation of Angular Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd221.htm|system,momentum,period,angular,moment,spinning,gyroscopes,vector,conserved,precession,conservation,rotation,precesses,velocity|current||Introduction to conservation of angular momentum.  Includes demos on the conservation
 of angular momentum and precession.|htm|seniso|2001-07-23 08:43:27|2001-10-19 15:04:19|mmp@msu (Michigan State University)|default
Example: Rotating Hoop|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd222a.htm|momentum,rate,conserved,angular,hoop,rotating,torque,rotation,velocity|current||Example calculating the new rate of rotation of a hoop.|htm|seniso|2001-07-23 08:44:54|2001-10-19 02:31:13|mmp@msu (Michigan State University)|default
Example: Rotating Star |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation |/res/msu/mmp/kap8/cd222.htm|momentum,lo,sphere,inertia,conserved,angular,moment,cycle,rotating,rotation,io,spherical,velocity,ro|current||Example calculating how the period of rotation is affected when the volume of 
 a rotating star is increased.  Includes an animation representing a view 
 looking down along the rotation axis of the star.
 |htm|seniso|2001-07-23 08:44:15|2001-10-19 15:01:39|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/cd235.htm|radius,masses,acceleration,momentum,torques,motion,forces,slipping,inertia,angular,moment,rotating,inclined,rotation,rotational,velocity,translational|current||True False practice for chapter 8.|htm|seniso|2001-07-23 08:46:32|2001-10-19 02:22:33|mmp@msu (Michigan State University)|default
Rotation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap8/sum08.htm|momentum,kinetic,energy,inertia,angular,moment,work,conservation,torque,rotation,ia,rotational,rq|current||Rotation Summary Page|htm|seniso|2001-08-24 14:21:53|2001-10-19 15:27:41|mmp@msu (Michigan State University)|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd223.problem|magnitude,center,acceleration,mass,torque,force,tension|current||Problem:
 Calculation of the magnitude of the acceleration of the center of mass of
 a cylinder. |problem|seniso|2001-08-24 14:35:07|2001-10-08 20:01:52|mmp@msu|default
Position|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd224.problem|center,equilibrium,fulcrum,rotational,mass,position|current||Center of mass problem.|problem|seniso|2001-08-24 14:35:36|2001-10-08 20:03:24|mmp@msu|default
Moment of Inertia|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd225.problem|inertia,axis,rotates,perpendicular,moment,rotating,parallel,theorem,plane|current||Problem:
 Calculation of the moment of inertia of a disk about an axis perpendicular to
 the plane of the disk.|problem|seniso|2001-08-24 14:35:56|2001-10-08 20:05:35|mmp@msu|default
Linear Speed|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd226.problem|energy,mgh,height,work,gravity,speed,rotational,kinetic,inclined,rotation,potential|current||Problem:
 Calculation of the linear speed of a sphere's center of mass.|problem|seniso|2001-08-24 14:36:20|2001-10-08 20:08:13|mmp@msu|default
Speed of Rotation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd227.problem|angular,parallel,speed,skaters,mass,rotation,paths,velocity|current||Problem:
 Calculation of the initial speed of rotation of two joined skaters.|problem|seniso|2001-08-24 14:36:53|2001-10-08 20:09:48|mmp@msu|default
Net Torque|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd228.problem|angular,circular,magnitude,acceleration,torque,speed,rotational,inertia,ia|current||Problem:
 Calculation of the magnitude of the net torque on a Ferris Wheel.|problem|seniso|2001-08-24 14:37:17|2001-10-23 13:18:20|mmp@msu|default
Acceleration|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd229.problem|angular,tension,magnitude,acceleration,rotate,absolute,gravity,torque,newtons,ar,rotational,dynamics,inertia,ia|current||Problem using the conceots of rotational dynamics.|problem|seniso|2001-08-24 14:37:40|2001-10-23 13:52:05|mmp@msu|default
Height|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd230.problem|acceleration,kinetic,inertia,gravitational,height,conservation,centripetal,potential,rotational,velocity,translational|current||energy problem.|problem|seniso|2001-08-24 14:38:13|2001-10-08 20:16:35|mmp@msu|default
Rate of Spinning|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd231.problem|momentum,angular,moment,inertia,conservation,rotation|current||Conservation of angular momentum problem.|problem|seniso|2001-08-24 14:38:44|2001-10-08 20:18:21|mmp@msu|default
Kinetic Energy of Rotation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd232.problem|energy,moment,rotational,kinetic,inertia,rotation|current||Rotational energy problem.|problem|seniso|2001-08-24 14:39:05|2001-10-08 20:20:00|mmp@msu|default
Door|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd233.problem|torque,force,perpendicular|current||Problem:
 Calculation of torque.|problem|seniso|2001-08-24 14:39:31|2001-10-29 16:39:23|mmp@msu|default
Potential Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Rotation|/res/msu/mmp/kap8/problems/cd234.problem|equilibrium,angle,energy,work,torque,force,rotational,potential|current||Problem:
 Calculation of the potential energy of a spiral spring.|problem|seniso|2001-08-24 14:39:49|2001-10-08 20:21:48|mmp@msu|default
Chapter Frontpage Rotation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Rotation|/res/msu/mmp/kap8/cd206.htm|rotation,chapter|current||Chapter Frontpage Rotation|htm|seniso|2001-08-24 14:08:19|2001-10-12 23:16:17|mmp@msu (Michigan State University)|default
Rotation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap8/calckap8.sequence||current|||sequence|seniso|2001-10-28 07:49:38|2002-03-19 00:11:33|mmp@msu (Michigan State University)|default
Applet: Ice Melting|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/demo/cd254.htm|melting,ice|current||Applet that shows what happens when ice melts.|htm|seniso|2001-11-02 23:34:16|2001-11-02 23:34:16|mmp@msu (Michigan State University)|default
Applet: Bernoulli Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/demo/cd259.htm|bernoulli,forces,gravity,effect,pressure,principle,lift,velocity|current||Applet illustrating the Bernoulli effect.|htm|seniso|2001-11-02 23:35:52|2001-11-02 23:35:52|mmp@msu (Michigan State University)|default
Percent Error|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/kap9/picts/milkyway.jpg|energy,potential|current|||jpg|seniso|2001-07-23 09:02:40|2001-07-23 09:30:21|mmp@msu|default
Youngs Modulus Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/youngs_eqn.gif||current||Youngs Modulus Equation for tensile stress.|gif|seniso|2001-10-30 13:32:05|2001-10-30 13:32:05|mmp@msu (Michigan State University)|default
Young's Modulus Equation 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/youngs_eqn2.gif||current|||gif|seniso|2001-10-30 13:42:16|2001-10-30 13:42:16|mmp@msu (Michigan State University)|default
Area Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/area_eqn.gif||current|||gif|seniso|2001-10-30 13:48:30|2001-10-30 13:48:30| mmp@msu (Michigan State University)|default
Shear Modulus Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/shearmodulus_eqn.gif||current|||gif|seniso|2001-10-30 13:56:52|2001-10-30 13:56:52|mmp@msu (Michigan State University)|default
Phi|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/phi_eqn.gif||current|||gif|seniso|2001-10-30 14:33:25|2001-10-30 14:33:25|mmp@msu (Michigan State University)|default
Phi 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/phi_eqn2.gif||current|||gif|seniso|2001-10-30 14:34:30|2001-10-30 14:34:30|mmp@msu (Michigan State University)|default
Bulk Modulus Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/bulk_eqn.gif||current|||gif|seniso|2001-10-30 14:54:43|2001-10-30 14:54:43|mmp@msu (Michigan State University)|default
Pressure Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/pressure_eqn.gif||current|||gif|seniso|2001-10-30 15:21:57|2001-10-30 15:21:57|mmp@msu (Michigan State University)|default
Pressure Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/pressure_eqn2.gif||current|||gif|seniso|2001-10-30 15:42:43|2001-10-30 15:42:43|mmp@msu (Michigan State University)|default
Height Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/height_eqn.gif||current|||gif|seniso|2001-10-30 15:52:02|2001-10-30 15:52:02|mmp@msu (Michigan State University)|default
Distance Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/xi_eqn.gif||current|||gif|seniso|2001-10-30 16:14:02|2001-10-30 16:14:02|mmp@msu (Michigan State University)|default
Volume Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/volume_eqn.gif||current|||gif|seniso|2001-10-30 16:22:22|2001-10-30 16:22:22|mmp@msu (Michigan State University)|default
Density Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/rho_eqn2.gif||current|||gif|seniso|2001-10-30 16:33:07|2001-10-30 16:33:07|mmp@msu (Michigan State University)|default
Strain Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/strain_eqn.gif||current|||gif|seniso|2001-10-30 21:10:21|2001-10-30 21:10:21|mmp@msu (Michigan State University)|default
Flow Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/q_eqn.gif||current|||gif|seniso|2001-10-30 21:49:29|2001-10-30 21:49:29|mmp@msu (Michigan State University)|default
Flow Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/velocity_eqn.gif||current|||gif|seniso|2001-10-30 21:52:56|2001-10-30 21:52:56|mmp@msu (Michigan State University)|default
Stress Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/stress_eqn.gif||current|||gif|seniso|2001-11-02 23:44:27|2001-11-02 23:44:27|mmp@msu (Michigan State University)|default
Strain Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/strain_eqn2.gif||current|||gif|seniso|2001-11-02 23:49:45|2001-11-02 23:49:45|mmp@msu (Michigan State University)|default
Specific Gravity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/sg_eqn.gif||current|||gif|seniso|2001-11-02 23:56:27|2001-11-02 23:56:27|mmp@msu (Michigan State University)|default
Specific Gravity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/picts/sg_eqn2.gif||current|||gif|seniso|2001-11-02 23:59:33|2001-11-02 23:59:33|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Solids and Fluids|/res/msu/mmp/kap9/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Solids and Fluids|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap9/kap9.sequence||current|||sequence|seniso|2001-12-28 14:15:40|2001-12-28 14:15:40|mmp@msu (Michigan State University)|default
Atoms|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd236a.htm|atomos,protons,molecule,neutron,matter,atoms,molecules,atom,angstrom,atomic,avogadro,classify,isotope,mole,nucleus|current||Definition of an atom.|htm|seniso|2001-07-23 09:30:46|2001-10-30 13:25:20|mmp@msu (Michigan State University)|default
Number of Atoms |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd236b.htm|universe,molecule,atoms,avogadros,molecules,body,water|current||Avogadro's number and relative number of atoms in objects.|htm|seniso|2001-07-23 09:32:44|2001-10-30 21:03:21|mmp@msu (Michigan State University)|default
Phases of Matter|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd237.htm|gas,state,applet,forms,liquids,squeeze,solids,gases,solid,plasma,phases,liquid,aggregation,matter,ions,atoms,states,pressure,stars,electrons|current||Explanation of phases of matter -- solid, liquid and gas.|htm|seniso|2001-07-23 09:49:21|2001-10-30 21:05:09|mmp@msu (Michigan State University)|default
Solids and Fluids |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd238.htm|distend,shape,gas,liquids,elastic,compress,compressibility,solids,gases,solid,incompressible,liquid,condensed,atoms,elastically|current||Explanation of the properties of solids and fluids.|htm|seniso|2001-07-23 09:58:15|2001-10-30 21:06:18|mmp@msu (Michigan State University)|default
Pressure|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd245.htm|atmospheric,pa,force,bar,pressure,atm,fluid,fluids,gauge,torr,pascals,stretch,liquid,atmospheres|current||Explanation of pressure -- atmospheric pressure and gauge pressure vs. actual pressure.|htm|seniso|2001-08-24 15:40:59|2001-10-30 15:46:23|mmp@msu (Michigan State University)|default
Stress and Strain|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd239.htm|deform,steel,force,pressure,strain,stress,elastic,volume,inelastic|current||Differences between stress and strain on an object.|htm|seniso|2001-07-23 09:59:33|2001-11-02 23:51:28|mmp@msu (Michigan State University)|default
Tensile or Compressional Stress|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd240.htm|compressed,stress,compressional,length,tensile,strain|current||Introduction to tensile and compressional stress.  Includes diagram illustrating
 an unstressed wire, a wire undergoing tensile stress and compressional stress.|htm|seniso|2001-08-24 15:38:50|2001-10-30 21:13:29|mmp@msu (Michigan State University)|default
Young's Modulus|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd241.htm|length,youngs,force,strain,modulus,stress|current||Young's modulus for tensile/compressional stress with a graph of the stress vs. 
 the strain.|htm|seniso|2001-08-24 15:39:13|2001-10-30 13:36:12|mmp@msu (Michigan State University)|default
Example: Young's Modulus|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd242.htm|youngs,stretched,rod,force,strain,modulus,stress,stretch,stressstrain,stressed|current||Example using the concepts of Young's Modulus.|htm|seniso|2001-08-24 15:39:48|2001-10-30 13:51:51|mmp@msu (Michigan State University)|default
Shear Stress|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd243.htm|youngs,shearing,modulus,shear,stress,solids|current||Introduction to shear stress with a diagram relating the variables of shear 
 stress.|htm|seniso|2001-07-23 10:00:05|2001-10-30 14:39:15|mmp@msu (Michigan State University)|default
Volume Stress|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd244.htm|squeeze,compress,modulus,stress,bulk,compressibility|current||Explanation of volume stress.|htm|seniso|2001-08-24 15:40:35|2001-10-30 15:44:08|mmp@msu (Michigan State University)|default
Pressure-Depth Relation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd246.htm|fluid,forces,height,density,gravity,pressuredepth,depth,force,pressure|current||Pressure-depth relation including a diagram.|htm|seniso|2001-08-24 15:41:50|2001-10-30 21:24:25|mmp@msu (Michigan State University)|default
Example: Diving|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd247.htm|diving,pressuredepth,pressure,atmosphere,divers,depth,atmospheres|current||Example using the concepts of pressure.|htm|seniso|2001-08-24 15:42:34|2001-11-02 23:53:33|mmp@msu (Michigan State University)|default
Pascal's Principle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd248.htm|hydraulic,equilibrium,work,incompressible,pressure,principle,pascals,areas|current||Introduction to Pascal's Principle.  |htm|seniso|2001-08-24 15:42:59|2001-10-30 16:01:13|mmp@msu (Michigan State University)|default
Pascal Example|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd249.htm|pascal,principle,hydraulic,cylinder,pump,force,lift|current||Example using the concepts of Pascal's Principle.|htm|seniso|2001-08-24 15:43:30|2001-10-30 16:15:53|mmp@msu (Michigan State University)|default
Mercury Barometer|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd250.htm|mercury,altitude,barometer,torricelli,torr,weather,height,pressure|current||Explanation and diagram of how a mercury barometer works.|htm|seniso|2001-07-23 10:00:24|2001-10-30 21:26:58|mmp@msu (Michigan State University)|default
Buoyancy and Archimedes Principle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd251.htm|dense,sinks,buoyed,upward,liquids,archimedes,displaces,density,buoyancy,pressure,weight,buoyant|current||Introduction to buoyancy and Archimedes principle.  Includes a diagram of the
 buoyant force acting an object in water.|htm|seniso|2001-08-24 15:44:27|2001-10-30 21:28:08|mmp@msu (Michigan State University)|default
Example: Archimedes Principle|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd252.htm|principle,archimedes,density,volume,buoyancy,force,weight|current||Example calculating the density and volume of an unknown material using 
 Archimedes Principle.|htm|seniso|2001-08-24 15:45:05|2001-10-30 16:35:17|mmp@msu (Michigan State University)|default
Floating|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd253.htm|gas,submerged,gravity,float,force,floats,fluid,displaced,density,floating,volume,liquid,weight,buoyant|current||Explanation of the floating ability of an object using the concepts of buoyant
 force, density and weight.|htm|seniso|2001-08-24 15:45:35|2001-11-03 00:00:42|mmp@msu (Michigan State University)|default
Example: Floating|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd254.htm|floats,specific,density,gravity,floating,volume,iceberg,ice|current||Example calculating what fraction of an iceberg sticks out of the water. Includes
 a demo. of ice melting.|htm|seniso|2001-08-24 15:46:18|2001-10-30 16:59:42|mmp@msu (Michigan State University)|default
Example: Submerging|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd255.htm|specific,density,gravity,submerging,force,buoyant|current||Example calculating the force needed to hold a low density object under water.
 Includes a diagram of the example.|htm|seniso|2001-08-24 15:46:51|2001-10-30 20:50:40|mmp@msu (Michigan State University)|default
Fluid Dynamics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd256.htm|volumes,eddies,height,incompressible,moving,dynamics,cylinders,viscosity,fluid,volume,particles,viscous,velocity|current||Introduction to fluid dynamics.  Includes an illustration of the flow in a tube
 that changes cross-sectional area and height.|htm|seniso|2001-07-23 10:00:45|2001-10-30 17:05:50|mmp@msu (Michigan State University)|default
Bernoulli's Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd257.htm|pipe,bernoullis,forces,kinetic,energy,height,density,work,flowing,liquid,potential,pressure,velocity,flow|current||Introduction to Bernoulli's Equation for a liquid flowing through a pipe.|htm|seniso|2001-08-24 15:49:06|2001-10-30 20:54:22|mmp@msu (Michigan State University)|default
Bernoulli's Eq.: Constant height|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd258.htm|height,bernoullis,velocity|current||Example of Bernoulli's equation using constant height as a constraint.|htm|seniso|2001-08-24 15:49:40|2001-10-30 20:59:00|mmp@msu (Michigan State University)|default
Bernoulli Examples|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd259.htm|bernoulli,gauge,blood,height,density,pressure,velocity,flow|current||Examples using Bernoulli's principle.  Includes a demonstration of the Bernoulli
 effect.|htm|seniso|2001-08-24 15:50:02|2001-10-30 21:30:36|mmp@msu (Michigan State University)|default
Fluids with Viscosity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd260.htm|poiseuilles,turbulent,force,pressure,viscosity,fluid,blockages,artery,liquid,poiseuille,velocity|current||Introduction to fluid with viscosity.|htm|seniso|2001-08-24 15:50:42|2001-10-30 21:42:03|mmp@msu (Michigan State University)|default
Turbulent Flow|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd261.htm|turbulence,turbulent,pressure,flow,nonturbulent,reynolds,velocity,capillary|current||Introduction to turbulent flow.|htm|seniso|2001-08-24 15:51:18|2001-10-30 21:55:58|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/cd272.htm|submerged,hydraulic,liquids,force,pressure,diver,strain,flow,sinks,fluid,stress,density,liquid,viscous,atmospheres|current||True False practice for solids and fluids.|htm|seniso|2001-08-24 15:51:49|2001-10-30 21:56:28|mmp@msu (Michigan State University)|default
Solids and Fluids|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap9/sum09.htm|youngs,tensile,incompressible,flow,bernoullis,stress,fluids,bulk,pascals,archimedes,poiseuilles,pressure,strain,modulus,reynolds,pascal,compressional,solids,floating|current|||htm|seniso|2001-08-24 15:52:44|2001-08-24 15:52:44|mmp@msu (Michigan State University)|default
Wire Stretch|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd262.problem|tensile,diameter,wire,circular,modulus,stretch|current||Problem:
 Calculation of the amount of stretch of a wire.|problem|seniso|2001-08-24 15:29:03|2001-11-01 14:01:07|mmp@msu|default
Change in Volume|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd263.problem|meters,pressure,modulus,atmosphere,bulk,meter,density,solution|current||Problem:
 Calculation of the change in volume of sea water.|problem|seniso|2001-08-24 15:29:57|2001-10-19 16:49:37|mmp@msu|default
Net Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd264.problem|meters,balance,newtons,force,pressure,balanced,area|current||Problem:
 Calculation of net force.|problem|seniso|2001-08-24 15:30:52|2001-10-19 16:50:57|mmp@msu|default
Minimum Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd265.problem|minimum,force,pressure,area,torr|current||Problem:
 Calculation of the minimum applied force.|problem|seniso|2001-08-24 15:31:56|2001-10-19 16:52:12|mmp@msu|default
Density|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd266.problem|forces,gravity,force,mass,density,volume,alcohol|current||Problem:
 Calculation of density of a moon rock.|problem|seniso|2001-08-24 15:32:26|2001-10-19 16:53:16|mmp@msu|default
Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd267.problem|newtons,force,water,specific,mass,density,weight,buoyant|current||Problem:
 Calculation of the force needed to keep a person under water.|problem|seniso|2001-08-24 15:33:16|2001-10-19 16:55:28|mmp@msu|default
Velocity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd268.problem|incompressible,diameter,dynamics,nonturbulent,fluid,velocity|current||Problem:
 Calculation of the velocity of water in a tube.|problem|seniso|2001-08-24 15:33:44|2001-10-19 16:56:55|mmp@msu|default
Time|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd269.problem|liter,diameter,pressure,viscosity,cm,density,liters|current||Problem:
 Calculation of the time it would take to pour oil through a funnel. |problem|seniso|2001-08-24 15:34:10|2001-10-19 16:59:22|mmp@msu|default
Ratio of Flow Rates|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd270.problem|rates,incompressible,poiseuilles,ratio,viscosity,units|current||Problem:
 Calculation of the ratio of the flow rates of two fluids.|problem|seniso|2001-08-24 15:34:48|2001-10-19 17:00:44|mmp@msu|default
Bouyant Force|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/kap9/problems/cd271.problem|archimedes,force,density,buoyant|current||Problem:
 Calculation of the buoyant force on a He-filled balloon.|problem|seniso|2001-08-24 15:35:19|2001-10-19 17:01:49|mmp@msu|default
Chapter Front Page|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries, Solids and Fluids|/res/msu/mmp/kap9/cd236.htm||current|||htm|seniso|2001-08-24 15:35:59|2001-10-30 13:22:58|mmp@msu (Michigan State University)|default
Solids and Fluids|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics|/res/msu/mmp/kap9/calckap9.sequence||current|||sequence|seniso|2001-11-28 18:20:17|2002-03-26 16:26:18|mmp@msu (Michigan State University)|default
Radius Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/picts/radius_eqn.gif||current|||gif|seniso|2001-11-26 01:02:46|2001-11-26 01:02:46|mmp@msu (Michigan State University)|default
Bohr Radius Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/picts/bohrradius_eqn.gif||current||Bohr Radius Equation|gif|seniso|2001-11-26 01:06:31|2001-11-26 01:06:31|mmp@msu (Michigan State University)|default
Angular Momentum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/picts/angmom_eqn.gif||current||Angular momentum of a mass in a circular orbit.|gif|seniso|2001-11-26 01:12:53|2001-11-26 01:12:53|mmp@msu (Michigan State University)|default
Energy Equation| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/picts/energy_eqn2.gif||current|||gif|seniso|2001-11-26 01:24:48|2001-11-26 01:24:48|mmp@msu (Michigan State University)|default
Angular Momentum| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/picts/angmom_eqn2.gif||current|||gif|seniso|2001-11-26 01:34:09|2001-11-26 01:34:09|mmp@msu (Michigan State University)|default
Velocity Equation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/picts/velocity_eqn.gif||current|||gif|seniso|2001-11-26 01:37:24|2001-11-26 01:37:24|mmp@msu (Michigan State University)|default
Applet: Bohr Atom|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/Bohr/app.htm||current|||htm|seniso|2001-11-20 19:37:05|2001-11-20 19:37:05|mmp@msu (Michigan State University)|default
Models of the Atom|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd719.htm|atom,scattering,orbit,rutherford,classical,charge,atomic,thomson,particle,composition,radiate,solar,atoms,quantum,orbits,observed,electron,orbited,electrons,quantized|current||Explanation and illustration of Thomson and Rutherford's model of the atom.|htm|seniso|2001-11-25 23:56:00|2001-11-25 23:56:00|mmp@msu (Michigan State University)|default
Bohr's Model|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd720.htm|planck,radiation,acceleration,bohrs,hydrogen,bohr,stationary,classical,kinematical,angular,mechanics,rutherfords,emission,orbits,newtonian,states,electrons,frequency,radiating,transitions,nucleus,absorption|current||Explanation of Bohr's model of the Hydrogen atom.|htm|seniso|2001-11-26 01:28:12|2001-11-26 01:28:12|mmp@msu (Michigan State University)|default
Bohr's Radii|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd721.htm|radius,atom,circular,integer,momentum,bohrs,orbit,hydrogen,forces,energy,bohr,mass,charge,angular,mechanics,coulomb,gravitational,radiate,centripetal,electrostatic,radii,quantum,plancks,force,orbits,newtonian,electron,kepler,quantized,attraction,nucleus|current||Introduction to Bohr's model of the Hydrogen atom and the Bohr radius.|htm|seniso|2001-11-26 01:39:04|2001-11-26 01:39:04|mmp@msu (Michigan State University)|default
Energy Levels|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd723.htm|atom,orbit,interaction,hydrogen,kinetic,energy,bohr,coulomb,proton,potential,electron,quantized|current||Equations for the energy levels of the Bohr Hydrogen atom.|htm|seniso|2001-11-26 01:40:24|2001-11-26 01:40:24|mmp@msu (Michigan State University)|default
Radiation and Absorption|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd724.htm|atom,radiation,hydrogen,energy,bohr,electromagnetic,visible,energies,absorbed,emitted,frequency,balmer,transitions,absorption|current||Introduction to radiation and absorption.|htm|seniso|2001-11-26 01:27:05|2001-11-26 01:27:05|mmp@msu (Michigan State University)|default
Spectral Lines|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd725.htm|wavelength,quantized,spectral,excited,photons,energy,atoms,lines,balmer,transition,radiation,rydberg,frequency|current||Introduction to spectral lines and the Rydberg constant.|htm|seniso|2001-11-30 12:43:16|2001-11-30 12:43:16|mmp@msu (Michigan State University)|default
De Broglie Waves and the Bohr Model|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd726.htm|radius,atom,integer,momentum,hydrogen,bohr,broglie,waves,orbits,electron|current||More explanation of De Broglie waves and the Bohr model.|htm|seniso|2001-11-26 01:42:20|2001-11-26 01:42:20|mmp@msu (Michigan State University)|default
Quantum Mechanical Hydrogen Atom|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd727.htm|atom,momentum,hydrogen,bohr,classical,axis,magnetic,angular,mechanics,orbital,integral,atoms,quantum,electron,levels,electrons,mechanical|current||Introduction to the quantum mechanical model for the hydrogen atom.|htm|seniso|2001-11-26 01:43:21|2001-11-26 01:43:21|mmp@msu (Michigan State University)|default
Many-Electron Atoms|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd728.htm|atom,exclusion,principle,bohr,atoms,quantum,electron,ground,electrons,manyelectron|current||Explanation of the models for many electron atoms.|htm|seniso|2001-11-26 01:44:34|2001-11-26 01:44:34|mmp@msu (Michigan State University)|default
Periodic Table|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd729.htm|electronic,element,state,shells,periodic,filled,momentum,chemical,angular,occupied,shell,quantum,subshell,electrons,electrical,bound|current||Symbols and electronic configurations for the first elements on the periodic
 table.|htm|seniso|2001-11-26 01:46:09|2001-11-26 01:46:09|mmp@msu (Michigan State University)|default
Lasers|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Origins of Quantum Theory|/res/msu/mmp/kap29/cd730.htm|transition,photons,emit,atom,monochromatic,laser,intermediate,einstein,energy,excitations,level,decays,fraction,photon,amplification,lasers,excited,inversion,atoms,fundamental,electrons,decay|current||Introduction to lasers.|htm|seniso|2001-11-26 01:48:05|2001-11-26 01:48:05|mmp@msu (Michigan State University)|default
Atomic Spectra|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/sum29.htm|momentum,angular,wavelength,mechanical,radius,bohr,atomic,quantum,summary|current||Atomic Spectra Summary Page|htm|seniso|2001-11-28 19:13:31|2001-11-28 19:13:31|mmp@msu (Michigan State University)|default
Radius|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd741.problem|radius,nucleus|current||Problem:
 Calculation of the radius of a nucleus.|problem|seniso|2001-11-26 00:34:53|2001-11-26 00:34:53|mmp@msu (Michigan State University)|default
Electrostatic Repulsion|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd742.problem|distance,repulsion,coulomb,electrostatic,force|current||Problem:
 Calculation of the magnitude of the electrostatic repulsion between two particles.|problem|seniso|2001-11-26 00:35:42|2001-11-26 00:37:28|mmp@msu, mmp@msu (Michigan State University)|default
Mass|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd743.problem|energy,mass,proton,binding,nucleus|current||Problem:
 Calculation of the mass of a nucleus.|problem|seniso|2001-11-26 00:36:50|2001-11-26 00:36:50|mmp@msu, mmp@msu (Michigan State University)|default
Maximum Energy|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd744.problem|kinetic,energy,mass,emitted,nucleus,decay|current||Problem:
 Calculation of the max energy emitted in a beta decay process.|problem|seniso|2001-11-26 00:38:12|2001-11-26 00:38:12|mmp@msu, mmp@msu (Michigan State University)|default
Maximum Energy 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd745.problem|atom,energy,converted,electron,emitted,decay|current||Problem:
 Calculation of the max energy emitted in a beta decay process.|problem|seniso|2001-11-26 00:39:01|2001-11-26 00:39:01|mmp@msu, mmp@msu (Michigan State University)|default
Half Life|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd746.problem|life,half,nuclei|current||Problem:
 Calculation of the amount of material left from it's half-life.|problem|seniso|2001-11-26 00:40:04|2001-11-26 00:40:04|mmp@msu (Michigan State University)|default
Activity|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd748.problem|activity,life,half,disintegrationsecond,atoms,radioactive|current||Problem:
 Calculation of the activity in a radioactive sample.|problem|seniso|2001-11-26 00:42:07|2001-11-26 00:42:07|mmp@msu (Michigan State University)|default
Decay|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd749.problem|activity,life,decays,half,atoms|current||Problem:
 Calculation of the amount of decays per second for a material.|problem|seniso|2001-11-26 00:43:02|2001-11-26 00:43:02|mmp@msu (Michigan State University)|default
Activity 2|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/problems/cd750.problem|activity,life,half,atoms,avogadros,radioactive|current||Problem:
 Calculation of the activity in a radioactive sample.|problem|seniso|2001-11-26 00:43:57|2001-11-26 00:43:57|mmp@msu (Michigan State University)|default
True False Practice|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/cd730a.htm|atom,momentum,bohrs,orbit,hydrogen,kinetic,energy,bohr,broglie,waves,angular,photon,gravity,lymer,newtons,electron,levels,emitted,electrons,frequency,balmer,mechanical|current||True False Practice for the chapter on quantum theory.|htm|seniso|2001-11-26 01:49:07|2001-11-26 01:49:07|mmp@msu, mmp@msu (Michigan State University)|default
Bohr Radii|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap29/cd722.htm|radius,orbit,bohr,classical,radiate,radii,quantum,electron,quantized|current||More on the Bohr radius.|htm|seniso|2001-11-26 01:16:48|2001-11-26 01:16:48|mmp@msu, mmp@msu (Michigan State University)|default
Atomic Spectra||Summaries|/res/msu/mmp/kap29/cd718.htm|atomic,spectra|current||Atomic Spectra frontpage.|htm|seniso|2001-11-25 23:55:17|2001-11-25 23:55:17|mmp@msu (Michigan State University)|default
Particle Adventure|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap31/demo/particle.htm|particle,adventure,animation,physics|current|||htm|seniso|2001-11-30 13:17:19|2001-11-30 13:17:19|mmp@msu, mmp@msu (Michigan State University)|default
Elementary Particles|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap31/cd753.htm|strongnuclear,electromagnetic,quarks,gravitational,proton,interact,interactions,nuclei,atom,hadrons,color,leptons,nucleus,chromodynamics,neutron,atoms,force,qcd,elementary,strong,nucleons,gravitation,weak,quantum,lepton,electron|current||Introduction to elementary particles including an illustration of the relative 
 sizes of the elementary particles.|htm|seniso|2001-08-31 16:11:05|2001-11-30 13:14:29|mmp@msu (Michigan State University)|default
Fundamental Forces|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap31/cd754.htm|forces,strongnuclear,energy,electromagnetic,gravitational,force,fundamental,principle,interaction,heisenberg,graviton,particle,conservation,particles,weak,uncertainty|current||Introduction to 4 fundamental forces -- strong/nuclear, electromagnetic, weak, 
 and gravitational.|htm|seniso|2001-08-31 16:14:17|2001-12-03 20:41:26|mmp@msu (Michigan State University)|default
Leptons|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap31/cd755.htm|neutrinos,forces,electromagnetic,gravitational,mass,muon,neutrino,masses,force,weak,electron|current||Introduction to the six types of leptons -- the electron and electron neutrino, 
 the muon and muon neutrino, and the tau and tau neutrino. 
 |htm|seniso|2001-08-31 16:16:09|2001-12-03 20:41:41|mmp@msu (Michigan State University)|default
Quarks|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap31/cd756.htm|bottom,anti,quark,charm,quarks,proton,neutron,strange,fermilab,top,up,particle,particles,antiquarks,down|current||Definition of quarks -- up, down, strange, charm, bottom and top.|htm|seniso|2001-08-31 16:18:13|2001-12-03 20:41:54|mmp@msu (Michigan State University)|default
Hadrons|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap31/cd757.htm|kaon,hadron,pions,quarks,decays,kaons,force,strong,hadrons,muons,quarkantiquark,muon,pion,decay|current||Definition of hadrons -- pions and kaons.|htm|seniso|2001-08-31 16:20:59|2001-12-03 20:42:06|mmp@msu (Michigan State University)|default
Example: Pion Decay|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/kap31/cd758.htm|life,decay,photons,energy,half,pion|current||Examples of Pion decay.|htm|seniso|2001-11-30 13:14:58|2001-11-30 13:14:58|mmp@msu (Michigan State University)|default
Further Readin|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap31/cd759.htm|information,accelerator|current||More information on elementary particles.|htm|seniso|2001-11-30 13:15:35|2001-11-30 13:15:35|mmp@msu, mmp@msu (Michigan State University)|default
Elementary Particle Physics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/kap31/cd752.htm|particle,physics,elementary|current||Front page for elementary particle physics.|htm|seniso|2001-08-31 15:54:27|2001-11-30 13:13:44|mmp@msu (Michigan State University)|default
Summaries| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/gifs/examexit.gif||current|||gif|seniso|2001-12-06 14:58:07|2001-12-06 14:58:07|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/gifs/examhelp.gif||current|||gif|seniso|2001-12-06 14:58:12|2001-12-06 14:58:12|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/gifs/examnext.gif||current|||gif|seniso|2001-12-06 14:58:20|2001-12-06 14:58:20|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/gifs/examprev.gif||current|||gif|seniso|2001-12-06 14:58:25|2001-12-06 14:58:25|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/gifs/examsol.gif||current|||gif|seniso|2001-12-06 14:58:29|2001-12-06 14:58:29|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/gifs/examtop.gif||current|||gif|seniso|2001-12-06 14:58:32|2001-12-06 14:58:32|mmp@msu, mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd001.htm|voltage,power,resistor|current|||htm|seniso|2001-09-24 13:37:17|2001-12-06 14:39:24|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd001h.htm||current|||htm|seniso|2001-09-24 13:37:39|2001-12-06 14:39:33|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd002.htm||current|||htm|seniso|2001-09-24 13:38:02|2001-12-06 14:39:59|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd002h.htm||current|||htm|seniso|2001-09-24 13:38:16|2001-12-06 14:40:08|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd003.htm||current|||htm|seniso|2001-09-24 13:38:33|2001-12-06 14:40:17|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd003h.htm||current|||htm|seniso|2001-09-24 13:38:49|2001-12-06 14:40:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd004.htm||current|||htm|seniso|2001-09-24 13:39:13|2001-12-06 14:40:43|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd004h.htm||current|||htm|seniso|2001-09-24 13:39:37|2001-12-06 14:41:58|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd005.htm||current|||htm|seniso|2001-09-24 13:40:11|2001-12-06 14:42:15|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd005h.htm|frequency|current|||htm|seniso|2001-09-24 13:40:29|2001-12-06 14:42:25|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd006.htm||current|||htm|seniso|2001-09-24 13:40:50|2001-12-06 14:42:37|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd006h.htm||current|||htm|seniso|2001-09-24 13:41:17|2001-12-06 14:42:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd007.htm||current|||htm|seniso|2001-09-24 13:41:48|2001-12-06 14:43:04|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd007h.htm||current|||htm|seniso|2001-09-24 13:42:09|2001-12-06 14:43:13|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd008.htm|state,hydrogen,bohr,quantum|current|||htm|seniso|2001-09-24 13:42:40|2001-12-06 14:43:36|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd008h.htm||current|||htm|seniso|2001-09-24 13:43:08|2001-12-06 14:44:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd009.htm|temperature,body,radiation,black,spectrum|current|||htm|seniso|2001-09-24 13:43:38|2001-12-06 14:44:13|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd009h.htm|heat,temperature|current|||htm|seniso|2001-09-24 13:43:59|2001-12-06 14:44:35|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd010.htm|atomic,binding,nucleus|current|||htm|seniso|2001-09-24 13:44:25|2001-12-06 14:44:54|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd010h.htm||current|||htm|seniso|2001-09-24 13:44:47|2001-12-06 14:45:19|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd011.htm|wavelength,speed,de,broglie|current|||htm|seniso|2001-09-24 13:45:11|2001-12-06 14:45:34|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd011h.htm||current|||htm|seniso|2001-09-24 13:45:38|2001-12-06 14:46:02|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd012.htm|wavelength,scattered,xrays|current|||htm|seniso|2001-09-24 13:46:03|2001-12-06 14:46:16|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd012h.htm|scattering,compton|current|||htm|seniso|2001-09-24 13:46:29|2001-12-06 14:46:45|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd013.htm|half,activity,life|current|||htm|seniso|2001-09-24 13:46:58|2001-12-06 14:47:11|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd013h.htm|number,probabilty,decaying,avagadros,decay|current|||htm|seniso|2001-09-24 13:47:28|2001-12-06 14:47:48|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd014.htm|decays,alpha,nucleus|current|||htm|seniso|2001-09-24 13:48:03|2001-12-06 14:48:25|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd014h.htm|alpha,particle,nucleus|current|||htm|seniso|2001-09-24 13:48:30|2001-12-06 14:48:46|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd015.htm|energy,heisenbergs,atoms,atomic,quantization,plancks,uncertainty|current|||htm|seniso|2001-09-24 13:49:10|2001-12-06 14:49:17|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd015h.htm||current|||htm|seniso|2001-09-24 13:49:32|2001-12-06 14:49:46|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd016.htm|amperes|current|||htm|seniso|2001-09-24 13:50:00|2001-12-06 14:50:09|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd016h.htm|voltage,ohm,battery,resistor|current|||htm|seniso|2001-09-24 13:50:26|2001-12-06 14:50:33|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd017.htm|field,electric,dielectric|current|||htm|seniso|2001-09-24 13:51:00|2001-12-06 14:51:04|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd017h.htm|positive,charge|current|||htm|seniso|2001-09-24 13:51:29|2001-12-06 14:51:36|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd018.htm||current|||htm|seniso|2001-09-24 13:52:00|2001-12-06 14:52:02|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd018h.htm|forces,charge|current|||htm|seniso|2001-09-24 13:56:52|2001-12-06 14:52:17|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/overview.htm|practice,exam|current|||htm|seniso|2001-09-24 13:57:22|2001-12-06 14:57:46|mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/TACanv.class||current|||class|seniso|2001-12-06 14:39:03|2001-12-06 14:39:03|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/TACont.class||current|||class|seniso|2001-12-06 14:39:10|2001-12-06 14:39:10|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/TestApplet.class||current|||class|seniso|2001-12-06 14:39:18|2001-12-06 14:39:18|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd019.htm|gap,capacitance,plate,plates,dielectric,capacitor|current|||htm|seniso|2001-12-06 14:52:38|2001-12-06 14:52:38|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd019h.htm||current|||htm|seniso|2001-12-06 14:53:00|2001-12-06 14:53:00|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd020.htm|capacitors,capacitance|current|||htm|seniso|2001-12-06 14:53:15|2001-12-06 14:53:15|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd020h.htm||current|||htm|seniso|2001-12-06 14:53:30|2001-12-06 14:53:30|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd021.htm|circuits,resistance|current|||htm|seniso|2001-12-06 14:53:42|2001-12-06 14:53:42|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd021h.htm|parallel,resistors|current|||htm|seniso|2001-12-06 14:53:57|2001-12-06 14:53:57|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd022.htm|proton,orbits,radius,circular,alpha,magnetic,particle|current|||htm|seniso|2001-12-06 14:54:12|2001-12-06 14:54:12|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd022h.htm|proton,circular,orbit,alpha|current|||htm|seniso|2001-12-06 14:54:38|2001-12-06 14:54:38|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd023.htm|field,magnetic|current|||htm|seniso|2001-12-06 14:54:57|2001-12-06 14:54:57|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd023h.htm|curl,thumb,rule,fingers|current|||htm|seniso|2001-12-06 14:55:20|2001-12-06 14:55:20|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd024.htm|generator,circuit,voltage,inductor,capacitor,frequency,resistor|current|||htm|seniso|2001-12-06 14:55:42|2001-12-06 14:55:42|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd024h.htm||current|||htm|seniso|2001-12-06 14:56:02|2001-12-06 14:56:02|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd025.htm|maximum,capacitance,inductance,circuit,resistor|current|||htm|seniso|2001-12-06 14:56:14|2001-12-06 14:56:14|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd025h.htm|resonant,resonance,frequency|current|||htm|seniso|2001-12-06 14:56:35|2001-12-06 14:56:35|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd026.htm|object,mirror,concave,image|current|||htm|seniso|2001-12-06 14:56:51|2001-12-06 14:56:51|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd026h.htm||current|||htm|seniso|2001-12-06 14:57:07|2001-12-06 14:57:07|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd027.htm|potential,resistor|current|||htm|seniso|2001-12-06 14:57:16|2001-12-06 14:57:16|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/final-232c/cd027h.htm|voltage,resistor|current|||htm|seniso|2001-12-06 14:57:34|2001-12-06 14:57:34|mmp@msu, mmp@msu (Michigan State University)|default
|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd001.htm|stronger,attract,charged,charges,particles,practice|current|||htm|seniso|2001-09-24 10:35:51|2001-09-24 10:35:51|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd001h.htm|attract,charged,charges,particles,practice|current|||htm|seniso|2001-09-24 10:36:09|2001-09-24 10:36:09|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd002.htm|field,electric|current|||htm|seniso|2001-09-24 10:36:29|2001-09-24 10:36:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd002h.htm|field,charge,fields,charges,cancel|current|||htm|seniso|2001-09-24 10:36:43|2001-09-24 10:36:43|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd003.htm|field,electric,approximately|current|||htm|seniso|2001-09-24 10:37:01|2001-09-24 10:37:01|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd003h.htm|center,ball,field,charge,acting,electrostatic,force,electric,charged,practice,exam|current|||htm|seniso|2001-09-24 10:37:17|2001-09-24 10:37:17|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd004.htm|charge,work|current|||htm|seniso|2001-09-24 10:37:46|2001-09-24 10:37:46|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd004h.htm|energy,work,accelerate,attraction,kinetic,negative,attracted,potential|current|||htm|seniso|2001-09-24 10:38:02|2001-09-24 10:38:02|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd005.htm|field,charge,conducting,electric,sphere|current|||htm|seniso|2001-09-24 10:38:29|2001-09-24 10:38:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd005h.htm|field,charge,balance,force,electric,induced,conductor|current|||htm|seniso|2001-09-24 10:38:50|2001-09-24 10:38:50|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd006.htm|plate,voltage,charged,negative,capacitor|current|||htm|seniso|2001-09-24 10:39:12|2001-09-24 10:39:12|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd006h.htm|positive,charge,plate,voltage,negative,capacitor|current|||htm|seniso|2001-09-24 10:39:29|2001-09-24 10:39:29|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd007.htm|capacitance,capacitor|current|||htm|seniso|2001-09-24 10:39:47|2001-09-24 10:39:47|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd007h.htm|capacitance,plates,capacitor|current|||htm|seniso|2001-09-24 10:40:06|2001-09-24 10:40:06|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd008.htm|circuit,capacitor|current|||htm|seniso|2001-09-24 10:40:24|2001-09-24 10:40:24|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd008h.htm|capacitors,capacitance,parallel,circuit,series,capacitor|current|||htm|seniso|2001-09-24 10:40:44|2001-09-24 10:40:44|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd009.htm|gap,plates,voltage,dielectric,air,capacitor|current|||htm|seniso|2001-09-24 10:41:06|2001-09-24 10:41:06|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd009h.htm|gap,plates,voltage,charged,charges,dielectric,air,capacitor|current|||htm|seniso|2001-09-24 10:41:31|2001-09-24 10:41:31|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd010.htm|voltage,resistor|current|||htm|seniso|2001-09-24 10:41:58|2001-09-24 10:41:58|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd010h.htm|circuit,series,voltage,resistor|current|||htm|seniso|2001-09-24 10:42:13|2001-09-24 10:42:13|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd011.htm|circuit|current|||htm|seniso|2001-09-24 10:42:34|2001-09-24 10:42:34|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd011h.htm|junction,circuit,kirchhoffs|current|||htm|seniso|2001-09-24 10:42:49|2001-09-24 10:42:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd012.htm|voltage,dissipated,power,resistance,resistor|current|||htm|seniso|2001-09-24 10:43:16|2001-09-24 10:43:16|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd012h.htm|appropriate,voltage,dissipated,resistance,resistor|current|||htm|seniso|2001-09-24 10:43:37|2001-09-24 10:43:37|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd013.htm|resistivity,parallel,diameter,wire,resistance|current|||htm|seniso|2001-09-24 10:44:02|2001-09-24 10:44:02|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd013h.htm|parallel,resistance|current|||htm|seniso|2001-09-24 10:44:27|2001-09-24 10:44:27|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd014.htm|field,voltage,magnetic,coil|current|||htm|seniso|2001-09-24 10:44:46|2001-09-24 10:44:46|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd014h.htm|field,voltage,area,magnetic,coil|current|||htm|seniso|2001-09-24 10:45:05|2001-09-24 10:45:05|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd015.htm|field,force,magnetic|current|||htm|seniso|2001-09-24 10:45:28|2001-09-24 10:45:28|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd015h.htm|force,conductor,magnetic|current|||htm|seniso|2001-09-24 10:45:53|2001-09-24 10:45:53|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd016.htm|field,currents,magnetic|current|||htm|seniso|2001-09-24 10:46:20|2001-09-24 10:46:20|mmp@msu|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd016h.htm|currents,conductor,magnetic|current|||htm|seniso|2001-09-24 10:46:47|2001-09-24 10:46:47|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd017.htm|screen,deflected,magnetic,computer,electron|current|||htm|seniso|2001-09-24 10:47:12|2001-09-24 10:47:12|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd017h.htm|deflection,deflected,magnetic,electron,velocity|current|||htm|seniso|2001-09-24 10:47:39|2001-09-24 10:47:39|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd018.htm|field,solenoids,solenoid|current|||htm|seniso|2001-09-24 10:48:14|2001-09-24 10:48:14|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd018h.htm|toroids,core,solenoids,solenoid|current|||htm|seniso|2001-09-24 10:48:34|2001-09-24 10:48:34|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd019.htm|circuit|current|||htm|seniso|2001-09-24 10:49:00|2001-09-24 10:49:00|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/cd019h.htm|circuit,selfinductance,battery|current|||htm|seniso|2001-09-24 10:49:21|2001-09-24 10:49:21|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam1-232c/overview.htm||current|||htm|seniso|2001-09-24 10:49:50|2001-09-24 10:49:50|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd001h.htm|voltage,dissipated,power,resistor|current|||htm|seniso|2001-09-24 11:54:57|2001-09-24 11:54:57|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd008h.htm|mirror,concave,curvature|current|||htm|seniso|2001-09-24 12:00:10|2001-09-24 12:00:10|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd007h.htm|snells,law|current|||htm|seniso|2001-09-24 11:59:26|2001-09-24 11:59:26|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd006h.htm|energy,electromagnetic,field,wavelength,fields,color,magnetic,wave,spectrum|current|||htm|seniso|2001-09-24 11:58:43|2001-09-24 11:58:43|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd005h.htm|wavelength,refraction,hz,frequency|current|||htm|seniso|2001-09-24 11:57:47|2001-09-24 11:57:47|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd004h.htm|energy,circuit,voltage,transformers,transformer,windings,friction,secondary,primary,coil,winding,resistance|current|||htm|seniso|2001-09-24 11:56:52|2001-09-24 11:56:52|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd003h.htm|resonant,resonance,circuits,circuit,impedance|current|||htm|seniso|2001-09-24 11:56:07|2001-09-24 11:56:07|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd002h.htm|circuit,capacitor|current|||htm|seniso|2001-09-24 11:55:32|2001-09-24 11:55:32|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd017h.htm|wavelength,refracting,reflection,refraction,lens,refractive,glass|current|||htm|seniso|2001-09-24 12:08:05|2001-09-24 12:08:05|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd016h.htm|maxima,slit,separation,frequency|current|||htm|seniso|2001-09-24 12:07:11|2001-09-24 12:07:11|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd015h.htm|transmission,polarization,polarizers,axes,linearly,unpolarized,electric,axis,light,polarized,polarizer,intensity|current|||htm|seniso|2001-09-24 12:06:14|2001-09-24 12:06:14|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd014h.htm|energy,field,electric,laser,sunlight,light,intensity|current|||htm|seniso|2001-09-24 12:05:28|2001-09-24 12:05:28|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd013h.htm|length,eye,focal,magnifying,lens,magnification|current|||htm|seniso|2001-09-24 12:04:24|2001-09-24 12:04:24|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd012h.htm|length,telescope,eye,mirror,focal,objective,eyepiece,lens,focussed,image,magnification|current|||htm|seniso|2001-09-24 12:03:24|2001-09-24 12:03:24|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd011h.htm|lensmaker,lens,lenses,air,convex,disulfide,glass|current|||htm|seniso|2001-09-24 12:02:33|2001-09-24 12:02:33|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd010h.htm|eyes,eye,diopters,lens,focus|current|||htm|seniso|2001-09-24 12:01:39|2001-09-24 12:01:39|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd009h.htm|length,converging|current|||htm|seniso|2001-09-24 12:00:55|2001-09-24 12:00:55|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd001.htm|voltage,dissipated,power,resistor|current|||htm|seniso|2001-09-24 11:54:36|2001-09-24 11:54:36|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd002.htm||current|||htm|seniso|2001-09-24 11:55:20|2001-09-24 11:55:20|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd003.htm|circuit,frequency|current|||htm|seniso|2001-09-24 11:55:49|2001-09-24 11:55:49|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd004.htm|energy,voltage,transformer,friction,secondary,primary,coil|current|||htm|seniso|2001-09-24 11:56:26|2001-09-24 11:56:26|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd005.htm|wavelength,refraction,practice,frequency|current|||htm|seniso|2001-09-24 11:57:27|2001-09-24 11:57:27|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd006.htm|electromagnetic,field,wavelength,fields,electric,vector,color,magnetic,wave|current|||htm|seniso|2001-09-24 11:58:08|2001-09-24 11:58:08|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd007.htm|angle,light|current|||htm|seniso|2001-09-24 11:59:10|2001-09-24 11:59:10|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd008.htm|mirror,inverted,concave,curvature|current|||htm|seniso|2001-09-24 11:59:48|2001-09-24 11:59:48|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd009.htm|length,focal,lens|current|||htm|seniso|2001-09-24 12:00:34|2001-09-24 12:00:34|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd010.htm|lens|current|||htm|seniso|2001-09-24 12:01:17|2001-09-24 12:01:17|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd011.htm|refractive,disulfide,glass|current|||htm|seniso|2001-09-24 12:02:05|2001-09-24 12:02:05|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd012.htm|length,telescope,mirror,concave,lens,convex,image|current|||htm|seniso|2001-09-24 12:02:59|2001-09-24 12:02:59|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd013.htm|length,eye,focal,converging,magnifying,lens,image,magnification,glass|current|||htm|seniso|2001-09-24 12:03:54|2001-09-24 12:03:54|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd014.htm|field,electric,laser,beam|current|||htm|seniso|2001-09-24 12:05:05|2001-09-24 12:05:05|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd015.htm|polarizers,unpolarized,light,polarized|current|||htm|seniso|2001-09-24 12:05:53|2001-09-24 12:05:53|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd016.htm|experiment,maxima,light,interference,frequency|current|||htm|seniso|2001-09-24 12:06:47|2001-09-24 12:06:47|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd017.htm|thin,reflection,refraction,lens,thickness,film,coating|current|||htm|seniso|2001-09-24 12:07:40|2001-09-24 12:07:40|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd018.htm|diffraction,slits,wavelength,grating,separation|current|||htm|seniso|2001-09-24 12:09:40|2001-09-24 12:09:40|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/cd018h.htm|diffraction,slits,wavelength,angles,screen,grating,separation|current|||htm|seniso|2001-09-24 12:10:03|2001-09-24 12:10:03|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam2-232c/overview.htm||current|||htm|seniso|2001-09-24 12:10:31|2001-09-24 12:10:31|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3-232c/final.htm|capacitors,photons,ionized,maximum,diffraction,slits,momentum,energy,capacitance,decays,maxima,length,field,charge,polarizers,orbital,wavelength,half,proton,plate,eyes,photo,diopters,focal,reflection,refraction,force,circuit,plates,ray,grating,unpolarized,voltage,balmer,flow,deuterons,dissipated,electric,reflected,atom,laser,slit,charges,life,kinetic,bohr,lens,focus,broglie,magnetic,inductor,wave,photon,light,atomic,particle,dielectric,particles,potential,capacitor,hz,film,electron,radioactive,frequency,uncertainty,resistor,rays,nucleus,coating|current|||htm|seniso|2001-09-24 13:30:01|2001-09-24 13:30:01|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3-232c/overview.htm||current|||htm|seniso|2001-09-24 13:33:41|2001-09-24 13:33:41|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/exam3-232c/FINAL_sol.htm|capacitors,momentum,energy,capacitance,length,charge,wavelength,half,emission,photo,focal,reflection,refraction,force,grating,unpolarized,electrons,voltage,balmer,flow,deuterons,electric,laser,charges,kinetic,bohr,lens,focus,broglie,power,wave,photon,potential,capacitor,film,electron,emitted,frequency,uncertainty|current|||htm|seniso|2001-09-24 13:34:07|2001-09-24 13:34:07|mmp@msu (Michigan State University)|default
Applet: Phase Transition Temperatures|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Periodic Table|/res/msu/mmp/period/phase.htm|liquids,boiling,temperature,melting,phase,transition,solids|current||In this applet you can visualize the melting and boiling temperatures for all elements - where known|htm|seniso|2001-11-02 23:38:12|2001-11-02 23:38:12|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Periodic Table|/res/msu/mmp/period/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Periodic Table| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Physics|/res/msu/mmp/period/period.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Applet: Electron Configurations| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall) |Periodic Table|/res/msu/mmp/period/electron.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Applet: Doppler Effect|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/applist/doppler/d.htm|doppler,speed,applet,sound,animation,velocity|current|||htm|seniso|2001-08-24 15:14:47|2001-08-24 15:14:47|mmp@msu (Michigan State University)|default
Applet: Coupled Oscillators|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/applist/coupled/osc2.htm|oscillators,oscillations,energy,applet,waves|current|||htm|seniso|2001-08-24 15:13:24|2001-08-24 15:13:24|mmp@msu (Michigan State University)|default
Applet: Gas Laws|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Temperature|/res/msu/mmp/applist/pvt/pvt.htm|gas,thermodynamic,temperature,applet|current|||htm|seniso|2001-08-24 15:17:16|2001-08-24 15:17:16|mmp@msu (Michigan State University)|default
Quarks|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/q/q.htm|quark,quarks,antiquarks,applet|current|||htm|seniso|2001-08-24 15:20:24|2001-08-24 15:20:24|mmp@msu (Michigan State University)|default
Applet: Chain Reaction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/applist/chain/chain.htm|fissions,neutron,applet,fission,fishionable,explode|current|||htm|seniso|2001-08-24 15:12:12|2001-08-24 15:12:12|mmp@msu (Michigan State University)|default
Applet: Decay|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Subatomic Physics|/res/msu/mmp/applist/decay/decay.htm|atomic,applet,radioactive|current|||htm|seniso|2001-08-24 15:14:20|2001-08-24 15:14:20|mmp@msu (Michigan State University)|default
Applet: Blackbody Spectrum |Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Heat|/res/msu/mmp/applist/blackbody/black.htm|wavelength,colors,blackbody,power,wavelengths,temperature,radiation,applet,spectrum|current|||htm|seniso|2001-08-24 15:10:47|2001-08-24 15:10:47|mmp@msu (Michigan State University)|default
Applet: Spectrum|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electromagnetic Waves|/res/msu/mmp/applist/Spectrum/s.htm|wavelength,applet,frequency|current|||htm|seniso|2001-08-24 15:25:38|2001-08-24 15:25:38|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/RGBColor/c.htm|colors,color,intensity,applet|current|||htm|seniso|2001-08-24 15:27:51|2001-08-24 15:27:51|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/CYMColor/c.htm|colors,color,mixed,mixing,applet|current|||htm|seniso|2001-08-24 15:27:23|2001-08-24 15:27:23|mmp@msu (Michigan State University)|default
Applet: Two Lenses|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Optical Instruments|/res/msu/mmp/applist/optics/o.htm|lens,light,lenses,combination,applet,optical,rays|current|||htm|seniso|2001-08-24 15:16:48|2001-08-24 15:16:48|mmp@msu (Michigan State University)|default
|GMultimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/shadow/sh.htm|shadows,applet,shadow|current|||htm|seniso|2001-08-24 15:22:07|2001-08-24 15:22:07|mmp@msu (Michigan State University)|default
Applet: Seasons|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Circular Motion|/res/msu/mmp/applist/seasons/cd190b.htm|temperatures,orbit,sun,temperature,seasons,radiation,applet,solar,rays|current|||htm|seniso|2001-08-24 15:21:11|2001-08-24 15:21:11|mmp@msu (Michigan State University)|default
Applet: Billiards|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Momentum and Collisions|/res/msu/mmp/applist/billy/billiard.htm|simulation,impulse,friction,momentum,applet,conservation,billiards,billiard|current|||htm|seniso|2001-08-24 15:10:09|2001-08-24 15:10:09|mmp@msu (Michigan State University)|default
Applet: Diver|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Solids and Fluids|/res/msu/mmp/applist/f/f.htm|archimedes,float,pressure,diver,sink,floats,principle,applet|current||Applet that demonstrates Archimedes' Principle as well as the ideal gas law.|htm|seniso|2001-08-24 15:15:21|2001-11-02 23:39:37|mmp@msu (Michigan State University)|default
Applet: Damped Oscillator|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Vibrations and Waves|/res/msu/mmp/applist/damped/d.htm|oscillator,oscillations,applet,velocity,frequency|current|||htm|seniso|2001-08-24 15:13:55|2001-08-24 15:13:55|mmp@msu (Michigan State University)|default
Applet: Simple Inclined Plane|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Force and Motion |/res/msu/mmp/applist/si/plane.htm|forces,friction,gravity,force,applet|current|||htm|seniso|2001-07-18 14:53:46|2001-08-24 15:22:35|mmp@msu (Michigan State University)|default
Applet: Beats|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/applist/beats/b.htm|frequencies,beats,applet,hz,beat|current|||htm|seniso|2001-08-24 15:09:41|2001-08-24 15:09:41|mmp@msu (Michigan State University)|default
Applet: Piano|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Sound|/res/msu/mmp/applist/sound/sound.html|frequencies,piano,applet,sound,notes|current|||html|seniso|2001-08-24 15:23:48|2001-08-24 15:23:48|mmp@msu (Michigan State University)|default
Applet: Induction|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Induction|/res/msu/mmp/applist/induct/faraday.htm|induction,applet,galvanometer,velocity|current|||htm|seniso|2001-08-24 15:16:09|2001-08-24 15:16:09|mmp@msu (Michigan State University)|default
Applet: Electron Orbit|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Electrostatics|/res/msu/mmp/applist/coulomb/orbit.htm|proton,java,orbits,orbit,electrons,applet,electron|current|||htm|seniso|2001-08-24 15:12:48|2001-08-24 15:12:48|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/calc/hilfe.htm||current|||htm|seniso|2001-08-24 15:11:35|2001-08-24 15:11:35|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/calc/rechner.htm|calculator|current|||htm|seniso|2001-08-24 15:11:56|2001-08-24 15:11:56|mmp@msu, mmp@msu (Michigan State University)|default
Applet: Significant Figures|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/sigfig/sig.htm|significant,number,numbers,applet|current|||htm|seniso|2001-08-24 15:23:09|2001-08-24 15:23:09|mmp@msu (Michigan State University)|default
Applet: Stopwatch|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/stopwatch/stopwatch.htm||current|||htm|seniso|2001-08-24 15:24:11|2001-08-24 15:24:11|mmp@msu (Michigan State University)|default
Applets Multimedia Physics|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/applist/applets.htm||current|||htm|seniso|2001-08-24 15:24:43|2001-08-24 15:24:43|mmp@msu (Michigan State University)|default
MSU Fightsong|MSU|Fightsong|/res/msu/mmp/vuphysics/fightsong/fightsong.htm|fightsong,white,spartan,green,spartans|current|||htm|seniso|2001-08-25 14:26:32|2001-08-25 14:26:32|Michigan State University|default
Exam FAQ|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/vuphysics/faq/exam1.htm||current|||htm|seniso|2001-08-25 14:37:11|2001-08-25 14:37:11|mmp@msu (Michigan State University)|default
Exam|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/vuphysics/exams/m1phy231/m1.htm|forces,force,acceleration,coefficient,velocity|current|||htm|seniso|2001-08-25 14:29:44|2001-08-25 14:29:44|mmp@msu (Michigan State University)|default
Exam|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/vuphysics/exams/m1phy232/m1.htm|capacitors,energy,capacitance,electricity,speed,electrostatic,force,circuit,conductors,resistors,voltage,dissipated,electric,insulators,galvanometer,magnetic,resistances,dielectric,capacitor,coil,resistance,resistor|current|||htm|seniso|2001-08-25 14:31:04|2001-08-25 14:31:04|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/vuphysics/exams/m2phy231/m2.htm|masses,kg,deformation,frictional,forces,energy,youngs,gravitational,gravity,newtons,speed,days,satellite,bullet,temperature,force,modulus,acceleration,orbit,kinetic,mass,bullets,day,centripetal,resistance,velocity,curve|current|||htm|seniso|2001-08-25 14:32:41|2001-08-25 14:32:41|mmp@msu (Michigan State University)|default
Exam|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/vuphysics/exams/m2phy232/m2.htm|diopter,energy,field,polarizers,wavelength,fields,microfarads,speed,resonance,force,voltage,dissipated,ohms,concave,magnifying,magnetic,power,wave,volts,curvature,hz,polarized,exam,electron,velocity,frequency,magnification,solenoid|current|||htm|seniso|2001-08-25 14:35:08|2001-08-25 14:35:08|mmp@msu (Michigan State University)|default
| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen) |Error Analysis|/res/msu/mmp/error/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Error Analysis|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Physics|/res/msu/mmp/error/error.sequence||current|||sequence|seniso|2001-09-06 13:35:00|2001-12-28 15:03:18|mmp@msu (Michigan State University)|default
Mean Value, Standard Deviation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/e1.htm|deviation,measured,estimates,measure,accuracy,error,standard,analysis,measurement,measurements,variance,mean|current|||htm|seniso|2001-09-06 19:17:14|2001-09-06 19:17:14|mmp@msu (Michigan State University)|default
Error Propagation|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/e2.htm|addition,approximation,error,additions|current|||htm|seniso|2001-09-06 19:18:16|2001-09-06 19:18:16|mmp@msu (Michigan State University)|default
Activity: Error Calculator| Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen) |Error Analysis|/res/msu/mmp/error/errorcalc.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|mmp@msu (Michigan State University)|default
Mariner 10|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Satellite|/res/msu/mmp/error/mariner10.gif||current|||gif|seniso|2001-12-28 15:19:56|2001-12-28 15:19:56|mmp@msu (Michigan State University)|default
Golf Swing|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Golf|/res/msu/mmp/error/swing.jpg||current|||jpg|seniso|2001-12-28 15:22:55|2001-12-28 15:22:55|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/problems/error1.problem|deviation,measured,standard,measurement,measurements,mean|current|||problem|seniso|2001-12-26 17:06:46|2001-12-28 15:12:35|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/problems/error2.problem|measure,measurement,mean|current|||problem|seniso|2001-12-26 17:17:25|2002-01-16 14:15:38|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/problems/error3.problem|deviation,standard|current|||problem|seniso|2001-12-26 17:27:32|2001-12-28 15:22:21|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/problems/error4.problem|uncertainty|current|||problem|seniso|2001-12-26 17:32:42|2001-12-28 15:19:26|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/problems/error5.problem|force,acceleration,accelerated,uncertainty|current|||problem|seniso|2001-12-26 17:37:08|2001-12-28 15:17:43|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/problems/error6.problem|uncertainty|current|||problem|seniso|2001-12-26 17:41:27|2002-01-15 08:23:18|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Error Analysis|/res/msu/mmp/error/problems/error7.problem|uncertainty|current|||problem|seniso|2001-12-28 14:59:04|2001-12-28 15:12:56|mmp@msu (Michigan State University)|default
Welcome|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Welcome Page for LBS267|/res/msu/mmp/welcomelbs267.htm|course,benenson,physics|current|||htm|seniso|2001-01-08 10:51:04|2001-02-02 11:10:12|mmp@msu (Michigan State University)|default
Welcome page for LBS 271|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/welcome271.htm|bernoulli,fire,hose,physics,welcome|current|||htm|seniso|1969-12-31 19:32:49|2002-10-18 15:39:20|mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/essay1.survey||current|||survey|seniso|2001-12-05 16:27:26|2001-12-05 18:39:22|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/essay2.survey||current|||survey|seniso|2001-12-05 16:27:35|2001-12-05 16:27:35|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/essay3.survey||current|||survey|seniso|2001-12-05 16:27:52|2001-12-05 16:27:52|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/essay4.survey||current|||survey|seniso|2001-12-05 16:27:58|2001-12-05 16:27:58|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey01.survey||current|||survey|seniso|2001-12-05 16:28:27|2001-12-05 18:36:47|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey02.survey||current|||survey|seniso|2001-12-05 16:28:35|2001-12-05 18:38:24|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey19.survey||current|||survey|seniso|2001-12-05 16:28:41|2001-12-05 16:28:41|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey18.survey||current|||survey|seniso|2001-12-05 16:28:48|2001-12-05 16:28:48|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey17.survey||current|||survey|seniso|2001-12-05 16:28:54|2001-12-05 16:28:54|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey16.survey||current|||survey|seniso|2001-12-05 16:29:00|2001-12-05 16:29:00|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey15.survey||current|||survey|seniso|2001-12-05 16:29:07|2001-12-05 16:29:07|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey14.survey||current|||survey|seniso|2001-12-05 16:29:13|2001-12-05 16:29:13|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey13.survey||current|||survey|seniso|2001-12-05 16:29:19|2001-12-05 16:29:19|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey12.survey||current|||survey|seniso|2001-12-05 16:29:25|2001-12-05 16:29:25|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey11.survey||current|||survey|seniso|2001-12-05 16:29:30|2001-12-05 16:29:30|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey10.survey||current|||survey|seniso|2001-12-05 16:29:37|2001-12-05 16:29:37|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey09.survey||current|||survey|seniso|2001-12-05 16:29:43|2001-12-05 16:29:43|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey08.survey||current|||survey|seniso|2001-12-05 16:29:48|2001-12-05 16:29:48|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey07.survey||current|||survey|seniso|2001-12-05 16:29:54|2001-12-05 16:29:54|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey06.survey||current|||survey|seniso|2001-12-05 16:29:59|2001-12-05 16:29:59|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey05.survey||current|||survey|seniso|2001-12-05 16:30:04|2001-12-05 16:30:04|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey04.survey||current|||survey|seniso|2001-12-05 16:30:09|2001-12-05 16:30:09|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey03.survey||current|||survey|seniso|2001-12-05 16:30:15|2001-12-05 16:30:15|mmp@msu, mmp@msu (Michigan State University)|default
|Guy D Albertelli, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS271/survey/survey.sequence||current|||sequence|seniso|2001-12-05 16:43:47|2001-12-05 16:43:47|mmp@msu, mmp@msu (Michigan State University)|default
LBS 271 top level map|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/lbs271.sequence||current|||sequence|seniso|2001-07-01 16:51:41|2002-08-19 09:56:02|mmp@msu (Michigan State University)|default
lbs272|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Physics, second semester - Electricity and Magnetism|/res/msu/mmp/lbs272.sequence||current||Second Semester Physics|sequence|seniso|2001-01-04 14:00:05|2001-12-20 10:03:52|mmp@msu (Michigan State University)|default
LBS 271 Lab|Dave Van Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Lab Quizzes Intro Physics|/res/msu/mmp/lbs271l.sequence||current|||sequence|seniso|2001-07-01 17:03:09|2001-09-06 13:43:57|mmp@msu (Michigan State University)|default
LBS 272 Lab|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/lbs272l.sequence||current|||sequence|seniso|2001-07-01 17:03:35|2001-12-26 08:23:30|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/webart.gif||current|||gif|seniso|2001-08-22 10:24:25|2001-08-23 14:40:20|mmp@msu (Michigan State University)|default
Optical Instruments|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/cd659a.htm|telescope,telescopes,microscope,object,microscopes,diameter,objective,visual,magnification|current|||htm|seniso|2001-08-25 13:59:09|2001-08-25 13:59:09|mmp@msu (Michigan State University)|default
|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/contlong.htm||current|||htm|seniso|2001-08-25 14:00:25|2001-08-25 14:00:25|mmp@msu, mmp@msu (Michigan State University)|default
phy232c|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/phy232c.sequence||current|||sequence|seniso|2001-08-27 10:26:01|2001-08-27 10:26:01|mmp@msu (Michigan State University)|default
Welcome Page LBS 272|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Summaries|/res/msu/mmp/LBS272/welcome272.htm|length,height,ray,video,physics|current|||htm|seniso|2001-12-20 09:18:46|2002-04-27 17:25:59|mmp@msu, mmp@msu (Michigan State University)|default
Virtual Physics 231c at MSU|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Course Top Level Map|/res/msu/mmp/msuvuphy231.sequence||current|||sequence|seniso|2001-12-31 15:10:44|2001-12-31 15:10:44|mmp@msu (Michigan State University)|default
Intro calc-based physics|Wolfgang Bauer|Physics - Calculus Based Introductory 1|/res/msu/mmp/phy183.sequence||current|top level map from MSU PHY 183 Spring 2002 course|top level map from MSU PHY 183 Spring 2002 course.  PHY 183 is MSU's first
 semester course in calc-based intro physics and mainly covers mechanics.|sequence|seniso|2001-11-27 15:39:44|2002-01-16 10:56:51|mmp@msu (Michigan State University)|default
MSU Virtual Physics phy232c|Gerd Kortemeyer, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Course Top Level Map|/res/msu/mmp/msuvuphy232.sequence||current|||sequence|seniso|2001-12-31 15:11:47|2001-12-31 15:11:47|mmp@msu (Michigan State University)|default
Intro Physics I, non-calculus based|Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall)|Intro Physics|/res/msu/mmp/phy231c.sequence||current|||sequence|seniso|2001-11-29 09:18:17|2001-12-31 15:05:05|mmp@msu (Michigan State University)|default
Welcome Page of RET demonstration|Felicia Berryman|DEMO|/res/msu/felicia/felicia_welcome.html|demo,demonstrations,welcome|current|Used in RET, summer 2001|almost useless page used for demo purposes - excellent greeting included|html|seniso|2001-06-27 11:01:12|2001-06-27 11:01:12|felicia@msu|default
lesson 1 (DEMO), , |Felicia Berryman|Demo|/res/msu/felicia/felicia_lesson1.html||current||demo stuff used in RET 2001|html|seniso|2001-07-02 12:43:14|2001-08-01 15:21:19|felicia@msu|default
Phoney Top-Level Map|Felicia Berryman||/res/msu/felicia/phoney.sequence||current||Phoney map that can be used for default set-up of course coordinators|sequence|seniso|2001-08-01 15:16:14|2001-08-01 15:16:14|felicia@msu|default
Test questions delete after 12.19.01|Andy Detskas||/res/msu/felicia/andy/andy1.problem||current|||problem|notset|2001-12-19 15:31:31|2001-12-19 15:31:31|felicia@msu|default
tester sequence|Felicia Berryman||/res/msu/felicia/tester.sequence||current|||sequence|notset|2001-08-27 16:01:02|2001-08-27 16:17:09|felicia@msu|default
Psychology Knowledge|Patrick Dickson|Self-Assessment of Knowledge of Domain of Psychology|/res/msu/felicia/dickson.html|self,assessment|current||Graduate students need to know what they do not know if they are to educate themselves. This assessment is a guide to what they need to study.|html|seniso|2001-12-19 09:50:34|2001-12-19 09:50:34|felicia@msu|default
|Pat Dickson||/res/msu/felicia/dicksonbye.htm||current|||htm|notset|2001-12-19 10:25:01|2001-12-19 10:25:01|felicia@msu|default
|Pat Dickson||/res/msu/felicia/dicksonscholars.page||current|||page|seniso|2001-12-19 10:46:36|2001-12-19 10:46:36|felicia@msu|default
andy|Andy Detskas||/res/msu/felicia/andy.problem||current|||problem|notset|2001-12-19 13:51:50|2001-12-19 13:51:50|felicia@msu|default
andy1|Andy Detskas||/res/msu/felicia/andy1.problem||current|||problem|notset|2001-12-19 13:52:09|2001-12-19 13:52:09|felicia@msu|default
andy3|Andy Detskas||/res/msu/felicia/andy2.problem||current|||problem|notset|2001-12-19 13:52:21|2001-12-19 13:52:21|felicia@msu|default
andy3|Andy Detskas||/res/msu/felicia/andy3.problem||current|||problem|notset|2001-12-19 13:52:33|2001-12-19 13:52:33|felicia@msu|default
welcome page|Helen Keefe|html welcome page|/res/msu/helen/helen_welcome.html|welcome|current|Felicia's welcome page|for RET demo|html|seniso|2001-06-27 11:15:18|2001-06-27 11:15:18|helen@msu|default
Test Problem 1|Edwin Kashy|Testing|/res/msu/kashy/Testing/prob1.problem|multiply|current|||problem|seniso|2001-03-23 15:25:24|2001-03-23 15:25:24|kashy@msu|default
Set1|Ed Kashy|watel level problem re-coded for LON-CAPA|/res/msu/kashy/Testing/start.sequence|Sample,problems|current||example of Archimedes principle.|sequence|seniso|2001-03-23 15:29:26|2002-08-06 17:19:58|kashy@msu.edu|default
|Guy D Albertelli%20II||/res/msu/kashy/Testing/cd468a.problem||current|||problem|notset|2001-03-29 16:41:08|2001-03-29 17:25:52|kashy@msu|default
|Guy D Albertelli%20II||/res/msu/kashy/Testing/waterLevel.problem||current|||problem|notset|2001-03-29 16:42:06|2001-12-06 10:32:28|kashy@msu|default
|Guy D Albertelli%20II||/res/msu/kashy/Testing/simple.problem||current|||problem|notset|2001-03-29 16:43:15|2001-03-29 16:43:15|kashy@msu|default
|Guy D Albertelli%20II||/res/msu/kashy/Testing/set2.page||current|||page|notset|2001-03-29 17:51:38|2001-03-29 17:51:38|kashy@msu|default
Fisherman on a small pond|kashy|Archimedes Principle, conceptual.|/res/msu/kashy/Testing/LCwaterlevel.problem||current|||problem|notset|2001-03-30 15:34:04|2001-08-27 14:17:47|kashy@msu|default
Figure of four masses on frictionless surface|E. Kashy, Guy D Albertelli|Newton's second law|/res/msu/kashy/Testing/randomlabel/4pull.gif||current|||gif|notset|2001-10-26 14:28:49|2001-10-26 14:28:49|kashy@msu|default
2qEfield.problem|Ed Kashy|Electrostatic Field |/res/msu/kashy/Testing/randomlabel/2qEfield.problem|field,charge,force,efield,electric,direction,conceptual|current||Concepts of static E-field and E-field lines|problem|seniso|2001-11-12 11:38:01|2001-11-12 11:45:35|kashy@msu|default
2qEfield.gif|Ed Kashy, Dave Johnson|Electrostatic field|/res/msu/kashy/Testing/randomlabel/2qEfield.gif|Figure,of E-field lines|current|||gif|notset|2001-11-12 11:47:07|2001-11-12 11:47:07|kashy@msu|default
|||/res/msu/kashy/Testing/randomlabel/impulse.class||current|||class|notset|2001-11-29 15:45:18|2001-11-29 15:45:18|kashy@msu|default
Impulse Java Applet Problem|H.K. Ng, E. Kashy, G. Albertelli|Physics|/res/msu/kashy/Testing/randomlabel/impulse1.problem|Newton,s Secondlaw,impulse,force|current|||problem|seniso|2001-12-06 10:34:48|2001-12-06 10:34:48|kashy@msu|default
|Ed Kashy||/res/msu/kashy/Testing/randomlabel/atwood3T2M.problem||current|||problem|notset|2001-12-28 16:53:28|2001-12-31 15:01:50|kashy@msu|default
|Ed Kashy||/res/msu/kashy/Testing/randomlabel/1pulleyatw.gif||current|||gif|notset|2001-12-31 12:14:57|2001-12-31 12:14:57|kashy@msu|default
|Ed Kashy||/res/msu/kashy/Testing/randomlabel/frictionless.html||current|||html|notset|2001-12-31 12:16:08|2001-12-31 12:16:08|kashy@msu|default
|Ed Kashy||/res/msu/kashy/Testing/randomlabel/webPulley.html||current|||html|notset|2001-12-31 12:17:49|2001-12-31 12:17:49|kashy@msu|default
|Ed Kashy||/res/msu/kashy/Testing/randomlabel/WebPulley.gif||current|||gif|notset|2001-12-31 12:20:32|2001-12-31 12:20:32|kashy@msu|default
Top Level Sequence for Champ+ 2001|Ed Kashy|Pre-college Math using Physics|/res/msu/kashy/champ2001.sequence||current||Ingham County (MI) Intermidiate School District program for middle 
 and high schools at Michigan State University |sequence|seniso|2001-07-25 09:51:53|2002-02-28 11:49:27|kashy@msu|default
Champ Plus Welcome, |Ed Kashy|Welcome page|/res/msu/kashy/Champ2001/champWelcome.html|welcome,math,mathematics,champ|current|||html|seniso|2001-07-25 14:48:31|2002-03-01 10:32:26|kashy@msu|default
MSU logo|||/res/msu/kashy/Champ2001/wordmark.gif||current|||gif|seniso|2001-07-24 21:09:50|2001-07-25 14:54:57|mmp@msu|default
Set1.page|ed kashy||/res/msu/kashy/Champ2001/set1.page||current|||page|notset|2001-07-25 15:11:56|2001-07-25 15:11:56|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12E1b.gif||current|||gif|notset|2002-01-07 20:43:15|2002-01-07 20:43:15|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12E2b.gif||current|||gif|notset|2002-01-07 20:44:25|2002-01-07 20:44:25|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12E3b.gif||current|||gif|notset|2002-01-07 20:45:04|2002-01-07 20:45:04|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12G1b.gif||current|||gif|notset|2002-01-07 20:45:42|2002-01-07 20:45:42|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12G2b.gif||current|||gif|notset|2002-01-07 20:46:10|2002-01-07 20:46:10|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12G3b.gif||current|||gif|notset|2002-01-07 20:46:37|2002-01-07 20:46:37|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12L1b.gif||current|||gif|notset|2002-01-07 20:47:00|2002-01-07 20:47:00|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12L2b.gif||current|||gif|notset|2002-01-07 20:47:23|2002-01-07 20:47:23|kashy@msu|default
|Ed Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/NewtLaw12L3b.gif||current|||gif|notset|2002-01-07 20:47:52|2002-01-07 20:47:52|kashy@msu|default
NewtonLawB|Ed Kashy|Level 1 adaptive feedback for NewtLaw12A|/res/msu/kashy/physicsLib02/09_Force_and_Motion/NewtLaw12cptB.problem|acceleration,ball,balls,coefficient,constant,height,mass,motion,picture,position,tension,thin,velocity|current||Math representation for constant acceleration in vertical direction,
 Adaptive Problem for NewtLaw12A|problem|seniso|2002-01-07 20:49:15|2002-05-15 10:01:35|kashy@msu|default
Z Diagram||Biology|/res/msu/ng/zdiagram.gif||current|||gif|notset|2001-07-09 13:53:10|2001-07-09 13:53:10||default
Species Competition||Biology|/res/msu/ng/speciescompetition.jpg||current|||jpg|notset|2001-07-09 13:53:10|2001-07-09 14:07:41||default
I really don't know|Edwin Kasy, Guy Albertelli|mathematics|/res/msu/albertel/msu-prob12.problem|algebra,math|current|||problem|seniso|2000-12-08 16:33:05|2000-12-21 12:01:15|albertel@103|default
|Guy D Albertelli%20II||/res/msu/albertel/a.sequence||current|||sequence|notset|2001-06-05 17:37:12|2001-06-05 17:37:28|albertel@msu|default
No Body, |Guy D Albertelli II|No Subject|/res/msu/albertel/a.html|aint|current|||html|notset|2001-06-05 17:39:34|2001-06-05 17:40:26|albertel@msu|default
|Guy D Albertelli%20II||/res/msu/albertel/torque1a.problem||current|||problem|notset|2001-06-05 17:42:09|2001-06-05 17:42:09|albertel@msu|default
|Guy D Albertelli%20II||/res/msu/albertel/test.sequence|Test,sequence|current|||sequence|notset|1969-12-31 19:33:21|2002-09-03 16:07:47|albertel@msu|default
|Guy D Albertelli%20II||/res/msu/albertel/torque1a.exam||current|||exam|notset|2001-08-21 13:10:33|2001-08-21 13:10:33|albertel@msu|default
|Guy D Albertelli||/res/msu/albertel/test/fox.problem||current|||problem|notset|2001-12-20 12:38:15|2001-12-20 12:38:15|albertel@msu|default
|Guy D Albertelli||/res/msu/albertel/test/fox.html||current|||html|notset|2001-12-20 12:38:22|2001-12-20 12:38:22|albertel@msu|default
test|PHYSNET%20group||/res/msu/physnet/CBItree/m1/m1-1.xml||current|||xml|notset|2001-03-19 13:56:01|2001-03-19 13:56:01|physnet@msu|default
Id Sheet M1|PHYSNET group||/res/msu/physnet/CBItree/m1/m1-id.xml||current|||xml|notset|2001-03-23 10:04:02|2001-03-23 10:04:02|physnet@msu|default
Start Map|PHYSNET%20group||/res/msu/physnet/test.sequence||current|||sequence|notset|2001-03-19 13:58:16|2001-03-23 10:05:51|physnet@msu|default
Tuning Fork Waves|Clipart Web Guy|Waves|/res/msu/ebrahimi/tunefork_waves_md_wht.gif||current||picture of tuning fork used as intro to waves|gif|seniso|2001-06-27 11:00:45|2001-06-27 11:00:45|Web Guy|default
RHS Physics, 2001-02|Kathryn Ebrahimi|Physics|/res/msu/ebrahimi/RHSphysics2001.sequence||current|||sequence|seniso|2001-07-11 16:00:30|2001-11-16 15:22:30|ebrahimi@msu|default
Intro to waves, , |Kathryn Ebrahimi|Introduction to waves, , |/res/msu/ebrahimi/Chapter25/Chapter25.html|pendulum,period,wave|current|||html|seniso|2001-07-11 16:28:35|2001-07-13 18:04:15|ebrahimi@msu|default
Wave Properties, |Kathryn Ebrahimi|Wave Properties|/res/msu/ebrahimi/Chapter25/waveproperties.html|amplitude,trough,crest,properties,hertz,troughs,sine,curve|current|||html|seniso|2001-07-11 16:29:52|2001-07-13 18:06:27|ebrahimi@msu|default
Wave Speed, |Kathryn Ebrahimi|Speed of waves|/res/msu/ebrahimi/Chapter25/Wavespeed.html|speed,electromagnetic,medium,waves,wave|current|||html|seniso|2001-07-11 16:31:19|2001-07-13 18:05:29|ebrahimi@msu|default
Types of Waves, |Kathryn Ebrahimi|longitudinal and transverse waves|/res/msu/ebrahimi/Chapter25/Typesofwaves.html||current|||html|seniso|2001-07-11 16:32:34|2001-07-13 18:05:18|ebrahimi@msu|default
Standing Waves, |Kathryn Ebrahimi|standing waves|/res/msu/ebrahimi/Chapter25/Standingwaves.html||current|||html|seniso|2001-07-11 16:33:21|2001-07-13 18:05:03|ebrahimi@msu|default
Doppler, , |Kathryn Ebrahimi|Doppler effect|/res/msu/ebrahimi/Chapter25/Doppler.html||current|||html|seniso|2001-07-11 16:33:48|2001-07-13 18:04:52|ebrahimi@msu|default
Standing Waves, |Kathryn Ebrahimi|standing waves|/res/msu/ebrahimi/Chapter25/ambulance.gif||current|||gif|seniso|2001-07-11 16:33:21|2001-07-13 18:05:38|ebrahimi@msu|default
Wave Problem 1|Kathryn Ebrahimi|waves and echos|/res/msu/ebrahimi/Chapter25/waves1.problem|air,speed,wave,wavelength|current|||problem|seniso|2001-07-11 16:35:10|2001-07-13 18:06:37|ebrahimi@msu|default
Wave Problem 2|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter25/waves2.problem||current|||problem|seniso|2001-07-11 16:36:49|2001-09-25 15:14:59|ebrahimi@msu|default
Wave Problem 3|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter25/waves3.problem||current|||problem|seniso|2001-07-11 16:37:31|2001-07-13 18:07:01|ebrahimi@msu|default
Wave Problem 4|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter25/waves4.problem||current|||problem|seniso|2001-07-11 16:38:16|2001-09-25 15:16:48|ebrahimi@msu|default
Wave Problem 5|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter25/waves5.problem||current|||problem|seniso|2001-07-11 16:38:46|2001-07-13 18:19:33|ebrahimi@msu|default
Wave Problem 6|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter25/waves6.problem||current|||problem|seniso|2001-07-11 16:39:18|2001-09-25 15:17:42|ebrahimi@msu|default
Wave Problem 7|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter25/waves7.problem||current|||problem|seniso|2001-07-11 16:39:51|2001-07-13 18:19:55|ebrahimi@msu|default
Wave Problem 9|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter25/ret3.problem||current|||problem|seniso|2001-07-11 16:40:41|2001-07-13 18:06:06|ebrahimi@msu|default
Wave Problem 10|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter25/ret5.problem||current|||problem|seniso|2001-07-11 16:41:09|2001-07-13 18:06:18|ebrahimi@msu|default
Chapter 25 Problems|Kathryn Ebrahimi|Wave Problems|/res/msu/ebrahimi/Chapter25/problems25.page||current||Various problems in SHM, wave speed and frequency|page|seniso|2001-07-12 11:16:47|2001-07-13 18:05:51|ebrahimi@msu|default
Chapter 25 sequence|Kathryn Ebrahimi|waves and vibrations|/res/msu/ebrahimi/Chapter25/Chapter25.sequence||current||Introduction to basics about waves and vibrations|sequence|seniso|2001-07-12 11:37:21|2001-07-13 18:04:39|ebrahimi@msu|default
Refraction Problem 1|Kathryn Ebrahimi|Refraction|/res/msu/ebrahimi/refraction1.problem|incidence,angle,refraction,light|current||Snell's Law Problem|problem|seniso|2001-07-13 15:05:39|2001-07-13 18:04:02|ebrahimi@msu|default
Chapter 26-Sound|Kathryn Ebrahimi|High School Physics - Sound|/res/msu/ebrahimi/sound.sequence|sound|current||Chapter 26, sound and musical instruments.|sequence|seniso|2001-07-02 16:22:00|2001-07-05 12:35:43|ebrahimi@msu|default
Chapter 26, sound and musical instruments|Kathryn Ebrahimi|Physics|/res/msu/ebrahimi/Chapter26/chapter26.sequence||current|||sequence|seniso|2001-07-11 15:25:18|2002-06-24 14:07:51|ebrahimi@msu|default
letsmakemusic, |Kathryn Ebrahimi|music|/res/msu/ebrahimi/Chapter26/flute.gif|sound,vibrations,physics,waves|current||intro to music|gif|seniso|2001-07-02 13:51:00|2001-07-13 18:09:22|ebrahimi@msu|default
letsmakemusic, |Kathryn Ebrahimi|music|/res/msu/ebrahimi/Chapter26/keys.gif|sound,vibrations,physics,waves|current||intro to music|gif|seniso|2001-07-02 13:51:00|2001-07-13 18:09:40|ebrahimi@msu|default
letsmakemusic, |Kathryn Ebrahimi|music|/res/msu/ebrahimi/Chapter26/guitar.gif|sound,vibrations,physics,waves|current||intro to music|gif|seniso|2001-07-02 13:51:00|2001-07-13 18:09:31|ebrahimi@msu|default
Chapter26, |Kathryn Ebrahimi|Sound, |/res/msu/ebrahimi/Chapter26/Chapter26.html|physics,instruments,wave|current||Introduction to the chapter on sound.  |html|seniso|2001-07-02 13:10:39|2001-07-13 18:08:37|ebrahimi@msu|default
letsmakemusic, |Kathryn Ebrahimi|music|/res/msu/ebrahimi/Chapter26/Music-1.html|sound,vibrations,physics,waves|current||intro to music|html|seniso|2001-07-02 13:51:00|2001-07-13 18:08:47|ebrahimi@msu|default
chapter26-1, |Kathryn Ebrahimi|speed of sound|/res/msu/ebrahimi/Chapter26/chap26-1.html|sound,air,number,speed,mach,formula|current||intro to speed of sound|html|seniso|2001-07-02 13:49:23|2001-07-13 18:14:02|ebrahimi@msu|default
Sound Problem 3|Kathryn Ebrahimi|Speed of sound in air|/res/msu/ebrahimi/Chapter26/violin.gif||current|||gif|seniso|2001-07-11 16:17:29|2001-07-13 18:13:19|ebrahimi@msu|default
Beats, , |Kathryn Ebrahimi|Interference and Beats|/res/msu/ebrahimi/Chapter26/Beats.html|beat,beats,frequency|current|||html|seniso|2001-07-05 11:37:28|2001-07-13 18:07:51|ebrahimi@msu|default
Sound1problem|Kathryn Ebrahimi|vibrations|/res/msu/ebrahimi/Chapter26/sound1.problem|frequency|current||problem on frequency|problem|seniso|2001-07-11 16:13:32|2001-07-18 08:59:56|ebrahimi@msu|default
Sound2problem|Kathryn Ebrahimi|speed of sound in air|/res/msu/ebrahimi/Chapter26/sound2.problem||current|||problem|seniso|2001-07-11 16:15:16|2001-07-13 18:11:58|ebrahimi@msu|default
Sound Problem 3|Kathryn Ebrahimi|Speed of sound in air|/res/msu/ebrahimi/Chapter26/sound3.problem||current|||problem|seniso|2001-07-11 16:17:29|2001-07-13 18:12:09|ebrahimi@msu|default
Sound Problem 4|Kathryn Ebrahimi|Harmonics|/res/msu/ebrahimi/Chapter26/sound4.problem||current|||problem|seniso|2001-07-11 16:18:24|2001-07-13 18:12:21|ebrahimi@msu|default
Sound Problem 5|Kathryn Ebrahimi|Harmonics|/res/msu/ebrahimi/Chapter26/sound5.problem||current|||problem|seniso|2001-07-11 16:19:04|2001-07-13 18:12:31|ebrahimi@msu|default
Sound Problem 6|Kathryn Ebrahimi|fundmental frequency of strings|/res/msu/ebrahimi/Chapter26/sound6.problem||current|||problem|seniso|2001-07-11 16:19:38|2001-07-13 18:12:44|ebrahimi@msu|default
Sound Problem 7|Kathryn Ebrahimi|fundamental frequency of strings|/res/msu/ebrahimi/Chapter26/sound7.problem||current|||problem|seniso|2001-07-11 16:20:21|2001-07-13 18:12:56|ebrahimi@msu|default
Sound Problem 8|Kathryn Ebrahimi|Speed of sound in air/beats|/res/msu/ebrahimi/Chapter26/sound8.problem||current|||problem|seniso|2001-07-11 16:21:06|2001-07-13 18:13:10|ebrahimi@msu|default
Mach 1 problem|Kathryn Ebrahimi|Mach Speed|/res/msu/ebrahimi/Chapter26/mach1.problem||current|||problem|seniso|2001-07-11 16:22:00|2001-07-13 18:10:29|ebrahimi@msu|default
Music in Bars and Rods, |Kathryn Ebrahimi|How music travels in instruments|/res/msu/ebrahimi/Chapter26/MusicBars.html|modulus,transverse,harmonic,glockenspiels,bar,harmonics,youngs,frequency|current||Using Youngs Modulus to determine frequency in bars and rods|html|seniso|2001-07-11 16:24:37|2001-07-13 18:13:28|ebrahimi@msu|default
Chapter 26 Problems|Kathryn Ebrahimi||/res/msu/ebrahimi/Chapter26/problems26.page||current|||page|seniso|2001-07-11 16:59:51|2001-07-17 08:43:31|ebrahimi@msu|default
RHS Physics Welcome|Kathy Ebrahimi||/res/msu/ebrahimi/RHSwelcome.html||current|||html|notset|2001-08-17 14:51:43|2001-10-24 12:42:15|ebrahimi@msu|default
Goodbye Page|Kathy Ebrahimi||/res/msu/ebrahimi/RHSbye.html||current|||html|notset|2001-08-17 14:57:07|2001-08-17 14:57:07|ebrahimi@msu|default
Refraction Problem 1|Kathy Ebrahimi||/res/msu/ebrahimi/Chapter29/refraction1.problem|incidence,angle,refraction|current|||problem|seniso|2001-10-24 12:44:03|2001-11-16 15:49:46|ebrahimi@msu|default
Refraction Problem 2|Kathy Ebrahimi|Physics|/res/msu/ebrahimi/Chapter29/refraction2.problem|incidence,index,refraction|current|||problem|notset|2001-11-16 15:06:56|2001-11-16 15:51:01|ebrahimi@msu|default
Refraction Problem 3|Kathy Ebrahimi||/res/msu/ebrahimi/Chapter29/refraction3.problem|incidence,index,refraction,ray|current|||problem|seniso|2001-11-16 15:07:49|2001-11-16 15:51:28|ebrahimi@msu|default
Refraction Problem 4|Kathy Ebrahimi|Physics|/res/msu/ebrahimi/Chapter29/refraction4.problem|refraction|current|||problem|seniso|2001-11-16 15:08:18|2001-11-16 15:08:18|ebrahimi@msu|default
Refraction Problem 5|Kathy Ebrahimi|Physics|/res/msu/ebrahimi/Chapter29/refraction5.problem|refraction|current|||problem|seniso|2001-11-16 15:09:07|2001-11-16 15:09:07|ebrahimi@msu|default
Refraction Problem 6|Kathy Ebrahimi|Physics|/res/msu/ebrahimi/Chapter29/refraction6.problem|refraction,critical|current|||problem|seniso|2001-11-16 15:09:42|2001-11-16 15:09:42|ebrahimi@msu|default
Refraction Facts|Kathy Ebrahimi|Physics|/res/msu/ebrahimi/Chapter29/refractionfacts.html|Physics,material,refraction|current|||html|seniso|2001-11-16 15:11:04|2001-11-16 15:11:04|ebrahimi@msu|default
Refraction Page|Kathy Ebrahimi|Physics|/res/msu/ebrahimi/Chapter29/refraction.page|refraction|current|||page|seniso|2001-11-16 15:18:29|2001-11-16 15:18:29|ebrahimi@msu|default
Biome rainfall chart|unknown|Ecology H.S.|/res/msu/wiltsem/rainfall.gif|rainfall,biome, precipitation, chart|current|||gif|seniso|2001-06-27 11:01:13|2001-06-27 11:01:13|unknown|default
Pop can calorimeter picture|Marlo Wiltse, Dave Jackson|Calorimetry|/res/msu/wiltsem/calorimetersmall.jpg|energy,calorimeter, |current||Calorimeter lab using a pop can and aluminum foil, 
 burning a piece of food and measuring the temperature change to determine energy content of food sample.|jpg|seniso|2001-06-29 13:58:43|2001-06-29 13:58:43||default
Energy in Food/Calorimeter lab packet|Marlo Wiltse|Calorimetry, energy in food|/res/msu/wiltsem/Calorimeterlab.html|aluminum,experiment,energy,nutritious,calorimetry,combustion,food|current||Lab procedure and tables, etc for a calorimeter, energy in food lab.|html|seniso|2001-06-29 14:04:02|2001-06-29 14:04:02|wiltsem@msu|default
Charlotte High School College Prep Biology|Marlo Wiltse|Biology|/res/msu/wiltsem/CHS-Bio2001.sequence||current||2001-02 top-level sequence for Charlotte High School's College Prep Biology course.
 |sequence|seniso|2001-07-10 11:21:02|2001-09-23 20:42:37|wiltsem@msu|default
Food Chain 1 problem|Marlo Wiltse|energy|/res/msu/wiltsem/foodchain.problem|autotrophs,requirements,energy,chain,food,herbivores,omnivores|current||A food chain/energy requirements problem|problem|notset|2001-07-13 15:05:04|2001-10-16 15:50:28|wiltsem@msu|default
Food chain 2 problem|Marlo Wiltse|food chain/energy requirements question|/res/msu/wiltsem/foodchain2.problem|food,energy|current|||problem|notset|2001-07-13 15:08:27|2001-07-13 15:08:27|wiltsem@msu|default
Food chain 3 problem|Marlo Wiltse|food chain/energy requirements question|/res/msu/wiltsem/foodchain3.problem||current|||problem|notset|2001-07-13 15:09:46|2001-07-13 15:09:46|wiltsem@msu|default
Food chain 4 problem|Marlo Wiltse|Food chain /energy requirements problem|/res/msu/wiltsem/foodchain4.problem|energy|current|||problem|notset|2001-07-13 15:10:41|2001-07-13 15:10:41|wiltsem@msu|default
Food chain 5 problem|Marlo Wiltse||/res/msu/wiltsem/foodchain5.problem||current|||problem|notset|2001-07-13 15:12:32|2001-10-16 16:10:10|wiltsem@msu|default
Food chain 6 problem|Marlo Wiltse|food chain/energy requirements question|/res/msu/wiltsem/foodchain6.problem||current|||problem|notset|2001-07-13 15:13:46|2001-07-13 15:13:46|wiltsem@msu|default
Food chain 7 problem|Marlo Wiltse|food chain/energy requirements question|/res/msu/wiltsem/foodchain7.problem||current|||problem|notset|2001-07-13 15:17:16|2001-07-13 15:17:16|wiltsem@msu|default
Chromatography lab|Marlo Wiltse|Spinach chromatography lab|/res/msu/wiltsem/chromatographylab.html|migration,chlorophyll,pigment,xanthophyll,carotene,photosynthesis,chromatography,chromatogram,absorption,spinach|current||Spinach chromatography lab showing pictures of the 
 chromatograms and individualized data tables and questions pertaining to the lab|html|notset|2001-07-13 15:18:51|2001-07-13 15:18:51|wiltsem@msu|default
Food chain homework|Marlo Wiltse||/res/msu/wiltsem/foodchainhomework.page||current||11 questions about food chain/energy requirements|page|notset|2001-07-13 15:38:54|2001-07-13 15:38:54|wiltsem@msu|default
Chromatography lab data table & questions|Marlo Wiltse|spinach chromatography|/res/msu/wiltsem/chromatography2.problem|spinach,chromatography,chlorophyll,carotene,solvent,pigment,xanthophyll|current||The individualized data table and questions for the chromatography lab|problem|notset|2001-07-16 11:37:12|2001-07-16 11:37:12|wiltsem@msu|default
More Chromatography questions|Marlo Wiltse|Spinach chromatography|/res/msu/wiltsem/chromato.problem|spinach,chromatography,chlorophyll,migrated,pigments,plant|current||Questions about spinach chromatography lab using the data given in chromatography lab and analyzing the data.|problem|notset|2001-07-16 11:41:39|2001-07-16 11:41:39|wiltsem@msu|default
Chromatography lab with data table & questions|Marlo Wiltse|Spinach chromatography|/res/msu/wiltsem/chromatographylab.page||current||Entire spinach chromatography lab with individualized data table, questions|page|notset|2001-07-16 11:49:50|2001-07-16 11:49:50|wiltsem@msu|default
Photosynthesis Problem 1|Marlo Wiltse|Photosynthesis problem|/res/msu/wiltsem/photosynthesis.problem|energy,molecules,sunlight,organic,light|current||Select from options and fill-in-the-blank questions about photosynthesis|problem|notset|2001-07-16 19:17:40|2001-07-16 20:16:31|wiltsem@msu|default
Photosynthesis problem 2|Marlo Wiltse||/res/msu/wiltsem/photosynthesis2.problem|energy,compounds,sunlight,plants,organic,light|current||Select from options and fill-in-the-blank questions about photosynthesis|problem|notset|2001-07-16 19:29:01|2001-07-16 19:29:01|wiltsem@msu|default
Photosynthesis problem 3|Marlo Wiltse||/res/msu/wiltsem/photosynthesis3.problem|dioxide,energy,sunlight,carbon,captured,light,stored,nadph,atp|current||Select from options and fill-in-the-blank questions about photosynthesis|problem|notset|2001-07-16 19:31:12|2001-10-21 17:18:05|wiltsem@msu|default
Photosynthesis problem 4|Marlo Wiltse||/res/msu/wiltsem/photosynthesis4.problem|calvin,cycle,adenosine,light,photosynthesis,photolysis|current||Select from options and fill-in-the-blank questions about photosynthesis|problem|notset|2001-07-16 19:32:23|2001-07-16 19:32:23|wiltsem@msu|default
Photosynthesis problem 5|Marlo Wiltse||/res/msu/wiltsem/photosynthesis5.problem|reactant,light|current||Select from options and fill-in-the-blank questions about photosynthesis|problem|notset|2001-07-16 19:33:11|2001-07-16 19:33:11|wiltsem@msu|default
Photosynthesis problem 6|Marlo Wiltse||/res/msu/wiltsem/photosynthesis6.problem|products,product,light|current||Select from options and fill-in-the-blank questions about photosynthesis|problem|notset|2001-07-16 19:34:16|2001-07-16 19:34:16|wiltsem@msu|default
Photosynthesis problem 7|Marlo Wiltse||/res/msu/wiltsem/photosynthesis7.problem|nadph,nadp|current||Select from options and fill-in-the-blank questions about photosynthesis|problem|notset|2001-07-16 19:34:50|2001-07-16 19:34:50|wiltsem@msu|default
Photosynthesis problem 8|Marlo Wiltse||/res/msu/wiltsem/photosynthesis8.problem|adp,atp|current||Select from options questions about photosynthesis|problem|notset|2001-07-16 19:35:40|2001-07-16 19:35:40|wiltsem@msu|default
Photosynthesis problem 9|Marlo Wiltse||/res/msu/wiltsem/photosynthesis9.problem|co|current||Select from options questions about photosynthesis|problem|notset|2001-07-16 19:36:27|2001-07-16 19:36:27|wiltsem@msu|default
Photosynthesis problem 10|Marlo Wiltse||/res/msu/wiltsem/photosynthesis10.problem|adp,atp,co|current||Select from options questions about photosynthesis|problem|notset|2001-07-16 19:37:29|2001-07-16 19:37:29|wiltsem@msu|default
Photosynthesis problems sequence |Marlo Wiltse|photosynthesis problems|/res/msu/wiltsem/photoproblems.page||current||Multiple sets of select from options questions|page|notset|2001-07-16 19:49:22|2001-07-29 15:45:47|wiltsem@msu|default
Calorimeter data tables & questions|Marlo Wiltse|Energy in Food/Calorimetry lab data tables & questions|/res/msu/wiltsem/calorimeter.problem|temp,energy,combustion,temperature,mass,calorimetry,food|current||Individualized data tables and questions about calorimetry |problem|notset|2001-07-16 20:30:35|2001-10-16 11:37:28|wiltsem@msu|default
Photosynthesis problem 11|Marlo Wiltse||/res/msu/wiltsem/photosynthesis11.problem|reduced,energy,calvin,electrons,atp,oxidized,chloroplasts,nadph,sun,nadp,plant|current||Select from options questions about photosynthesis|problem|notset|2001-07-16 21:56:59|2001-10-21 17:28:26|wiltsem@msu|default
Respiration problem 1|Marlo Wiltse|respiration vs, photosynthesis|/res/msu/wiltsem/respiration.problem|energy,transport,glycolysis,electron,sugarproducing|current||Select from options questions about respiration and photosynthesis.|problem|notset|2001-07-18 20:34:38|2001-07-18 20:34:38|wiltsem@msu|default
Respiration problem 2|Marlo Wiltse|respiration vs. photosynthesis|/res/msu/wiltsem/respiration2.problem|energy,transport,molecules,effect,water,atps,plants,organic,light,coenzyme,electron|current||Select from options questions about respiration and photosynthesis.|problem|notset|2001-07-18 20:36:13|2001-07-18 20:36:13|wiltsem@msu|default
Respiration problem 3|Marlo Wiltse|Respiration vs. photosynthesis|/res/msu/wiltsem/respiration3.problem|energy,sugar,carotenoidsyellow,light,photosynthesis|current|||problem|notset|2001-07-18 20:37:27|2001-07-18 20:37:27|wiltsem@msu|default
Respiration problem 4|Marlo Wiltse|Respiration vs. photosynthesis|/res/msu/wiltsem/respiration4.problem|product,waste,cellular,glucose,breakdown,pyruvate,fuel,respiration|current||Select from options questions about respiration and photosynthesis.|problem|notset|2001-07-18 20:38:38|2001-07-18 20:38:38|wiltsem@msu|default
Metabolizing Food Table|Marlo Wiltse|Types of metabolism table |/res/msu/wiltsem/metaboliz2.problem|metabolism,table,nitrate,growth,nitrateabsent,yeast,nitratepresent,data|current||Metabolizing food lab table with two numerical questions about data|problem|notset|2001-08-02 14:05:39|2001-08-02 14:05:39|wiltsem@msu|default
Photosynthesis & Respiration sequence|Marlo Wiltse|Biology|/res/msu/wiltsem/Photoresp.sequence|photosynthesis,respiration|current||Photosynthesis & respiration sequence used in 9th grade biology.|sequence|notset|2001-08-02 15:00:15|2001-10-13 15:40:34|wiltsem@msu|default
welcome page|Marlo Wiltse|welcome|/res/msu/wiltsem/welcome.html||current|||html|notset|2001-08-02 15:17:13|2001-08-02 15:17:13|wiltsem@msu|default
Metabolism 2 problem|Marlo Wiltse|Food metabolism problem for lab|/res/msu/wiltsem/metabolism/metaboliz2.problem|metabolism,respiration, anaerobic, aerobic, fermentation,nitrate,growth,yeast,aeruginosa,deep,data|current||Questions pertaining to a metabolizing food lab about respiration & fermentation|problem|notset|2001-08-14 18:17:41|2001-08-14 18:17:41|wiltsem@msu|default
Metabolism 3 problem|Marlo Wiltse|Metabolizing Food lab problem|/res/msu/wiltsem/metabolism/metaboliz3.problem|respiration,fermentation, anaerobic, aerobic|current||Questions pertaining to a metabolizing food lab on respiration and fermentation|problem|notset|2001-08-14 18:20:07|2001-08-14 18:20:07|wiltsem@msu|default
metabolism 4 problem|Marlo Wiltse|metabolizing food lab 4th problem|/res/msu/wiltsem/metabolism/metaboliz4.problem|nitrate,specimen,metabolism,absence,agar|current||Questions pertaining to a metabolizing food lab on respiration and fermentation|problem|notset|2001-08-14 18:21:40|2001-08-14 18:21:40|wiltsem@msu|default
Metabolism 5 problem|Marlo Wiltse|Metabolizing food lab 5th problem|/res/msu/wiltsem/metabolism/metaboliz5.problem|yeast,metabolism,aeruginosa,pseudomonas|current||Questions pertaining to a metabolizing food lab on respiration and fermentation|problem|notset|2001-08-14 18:22:53|2001-08-14 18:22:53|wiltsem@msu|default
Metabolism 6 problem|Marlo Wiltse||/res/msu/wiltsem/metabolism/metaboliz6.problem|recycle,acceptor,yeast,aeruginosa,ferment,nad,electron|current||Questions pertaining to a metabolizing food lab on respiration and fermentation|problem|notset|2001-08-14 18:23:46|2001-08-14 18:23:46|wiltsem@msu|default
Metabolism 7 problem|Marlo Wiltse||/res/msu/wiltsem/metabolism/metaboliz7.problem|nitrate,oxygen,acceptor,aerobic,anaerobic,metabolism,electrons,atp,fermentation,glycolysis,nad,electron,respiration|current||Questions pertaining to a metabolizing food lab on respiration and fermentation|problem|notset|2001-08-14 18:24:41|2001-08-14 18:24:41|wiltsem@msu|default
Metabolizing food lab|Marlo Wiltse|food metabolism|/res/msu/wiltsem/metabolism/metabolizingfoodlab.html|nitrate,oxygen,growth,trypticase,energy,acceptor,yeast,aerobic,anaerobic,metabolism,grow,culture,aeruginosa,soy,respirers,cells,organic,fermentation,fermenters,pseudomonas,food,metabolize,denitrifying,inorganic,nad,electron,respiration|current||Lab purpose, materials, and procedure for a lab on food metabolism about respiration and fermentation|html|notset|2001-08-14 18:25:57|2001-08-14 18:25:57|wiltsem@msu|default
Metabolizing Food Lab Page|Marlo Wiltse|metabolizing Food Lab|/res/msu/wiltsem/metabolism/metabolizingfoodlab.page|fermentation,aerobic,anaerobic,respiration|current||Metabolizing food lab about respiration and fermentation with individualized data tables, and questions.|page|notset|2001-08-14 19:04:32|2001-08-23 16:18:37|wiltsem@msu|default
Respiration 5 problem|Marlo Wiltse|respiration problem|/res/msu/wiltsem/respiration5.problem|transport,photosynthesis,electron,respiration|current||Questions about respiration and photosynthesis|problem|notset|2001-08-14 20:42:23|2001-08-14 20:42:23|wiltsem@msu|default
Respiration homework|Marlo Wiltse|respiration and photosynthesis questions|/res/msu/wiltsem/respirationhomework.page||current||Homework questions about respiration with a little review of photosynthesis|page|notset|2001-08-14 20:58:47|2001-08-23 16:21:33|wiltsem@msu|default
Anaerobic 1 problem|Marlo Wiltse|Anaerobic respiration vs fermentation problems|/res/msu/wiltsem/anaerobic/anaerobic1.problem|aerobic,anaerobic,fermenters,metabolize|current||2 questions about respiration and fermentation|problem|notset|2001-08-14 21:06:48|2001-08-14 21:06:48|wiltsem@msu|default
Anaerobic 2 problem|Marlo Wiltse|Anaerobic respiration vs. fermentation problems|/res/msu/wiltsem/anaerobic/anaerobic2.problem|acceptor,product,aerobic,anaerobic,fermenter,organic,fermentation,inorganic,electron,respirer,respiration|current||3 questions about respiration vs. fermentation|problem|notset|2001-08-14 21:09:26|2001-08-14 21:09:26|wiltsem@msu|default
Anaerobic 3 problem|Marlo Wiltse|Anaerobic respiration vs. fermentation problems |/res/msu/wiltsem/anaerobic/anaerobic3.problem|nitrate,growth,metabolism,deep,agar|current||3 fill in the blank questions about anaerobic respiration, fermentation and respiration.|problem|notset|2001-08-14 21:14:34|2001-08-14 21:14:34|wiltsem@msu|default
Anaerobic 4 problem|Marlo Wiltse|Anaerobic respiration and glycolysis questions|/res/msu/wiltsem/anaerobic/anaerobic4.problem|net,aerobic,anaerobic,atp,fermentation,glycolysis,respiration|current||3 questions about glycolysis and anaerobic respiration|problem|notset|2001-08-14 21:17:04|2001-08-14 21:17:04|wiltsem@msu|default
Anaerobic 5 problem|Marlo Wiltse|Anaerobic and fermentation problems|/res/msu/wiltsem/anaerobic/anaerobic5.problem|oxygen,cellulose,recycles,fats,glucose,atp,fermentation,cell,glycolysis,respiration,starch|current||3 questions about respiration and fermentation|problem|notset|2001-08-14 21:42:22|2001-08-14 21:42:22|wiltsem@msu|default
Anaerobic 6 problem|Marlo Wiltse|Respiration questions|/res/msu/wiltsem/anaerobic/anaerobic6.problem|citric,cycle,atp,krebs,pyruvic,glycolysis,electron|current||3 questions about respiration - glycolysis, ETC, Citric acid Cycle (Krebs)|problem|notset|2001-08-14 21:45:02|2001-08-14 21:45:02|wiltsem@msu|default
Anaerobic 7 problem|Marlo Wiltse|Photosynthesis and Fermentation/respiration questions|/res/msu/wiltsem/anaerobic/anaerobic7.problem|energy,yeast,glucose,atp,fermentation,photosynthesis,respiration|current||2 questions about photosynthesis/respiration equations and fermentation of yeast or human|problem|notset|2001-08-14 22:11:26|2001-08-14 22:11:26|wiltsem@msu|default
Anaerobic Homework Page|Marlo Wiltse|Anaerobic Respiration, Fermentation, etc. questions|/res/msu/wiltsem/anaerobic/anaerobichomework.page||current||Questions about the different types of respiration and fermentation with a little bit of photosynthesis.|page|notset|2001-08-14 22:45:42|2001-08-23 16:15:41|wiltsem@msu|default
Spectrophotometry 1 problem|Marlo Wiltse|Spectrophotometry Lab|/res/msu/wiltsem/spectrophotometry/photospectro1.problem|photosynthesis,chloroplasts, absorbance,color|current||A simulated spectrophotometry lab with idividualized data and questions pertaining to the lab.|problem|notset|2001-08-15 16:25:52|2001-08-15 16:25:52|wiltsem@msu|default
spectrophotometry 2 problem|Marlo Wiltse|Spectrophotometry Lab|/res/msu/wiltsem/spectrophotometry/photospectro2.problem|rate,chloroplasts,photosynthesis|current||A simulated spectrophotometry lab with idividualized data and questions pertaining to the lab.|problem|notset|2001-08-15 16:28:06|2001-08-15 16:28:06|wiltsem@msu|default
Spectrophotometry 3 problem|Marlo Wiltse|Spectrophotometry Lab|/res/msu/wiltsem/spectrophotometry/photospectro3.problem|experiment,dpip,chloroplasts,reduce,data|current||A simulated spectrophotometry lab with idividualized data and questions pertaining to the lab.|problem|notset|2001-08-15 16:28:49|2001-08-15 16:28:49|wiltsem@msu|default
Spetrophotometry 4 problem|Marlo Wiltse|Spectrophotometry lab|/res/msu/wiltsem/spectrophotometry/photospectro4.problem|dpip,chloroplasts,boiled,reduce,dark|current||A simulated spectrophotometry lab with idividualized data and questions pertaining to the lab.|problem|notset|2001-08-15 16:29:26|2001-08-15 16:29:26|wiltsem@msu|default
Spectrophotometry 5 problem|Marlo Wiltse|Spectrophotometry Lab|/res/msu/wiltsem/spectrophotometry/photospectro5.problem|reduction,dpip,light,chloroplasts,boiled,unboiled,reduce,dark|current||A simulated spectrophotometry lab with idividualized data and questions pertaining to the lab.|problem|notset|2001-08-15 16:30:07|2001-08-15 16:30:07|wiltsem@msu|default
Spectrophotometry 6 problem|Marlo Wiltse|Spectrophotometry Lab|/res/msu/wiltsem/spectrophotometry/photospectro6.problem|carotenes,xanthophylls,yellow,activity,chloroplasts,pigments,increase,chlorophylls,photosynthetic|current||A simulated spectrophotometry lab with idividualized data and questions pertaining to the lab.|problem|notset|2001-08-15 16:30:54|2001-10-21 17:49:08|wiltsem@msu|default
Spectrophotometry Lab|Marlo Wiltse|Spectrophotometry Lab procedure|/res/msu/wiltsem/spectrophotometry/photospectrolab.html|oxygen,photosystems,chlorophyll,reduced,cytochrome,oxidized,energy,absorbs,spectrophotometry,dye,organic,dpip,absorbance,light,chloroplasts,colorimeter,chloroplast,unboiled,photosynthesis,nadph,photosystem,objectives,electron,data,atp|current||A simulated spectrophotometry lab with idividualized data and questions pertaining to the lab.|html|notset|2001-08-15 16:31:46|2001-08-15 16:31:46|wiltsem@msu|default
Spectrophotometry Lab|Marlo Wiltse|Spectrophotometry Lab|/res/msu/wiltsem/spectrophotometry/spectrophotometrylab.page||current||A simulated spectrophotometry lab with individualized data and questions.|page|notset|2001-08-15 17:04:28|2001-08-16 18:24:31|wiltsem@msu|default
Spectrophotometry 7 problem|Marlo Wiltse|Spectrophotometry lab questions|/res/msu/wiltsem/spectrophotometry/photospectro7.problem|simulation,lab,plants,light,questions,photosynthesis,excite,electrons|current||Questions for a simulated spectrophotometry lab.|problem|notset|2001-08-16 17:33:36|2001-08-16 17:33:36|wiltsem@msu|default
Spectrophotometry 8 problem|Marlo Wiltse|Spectrophotometry lab question|/res/msu/wiltsem/spectrophotometry/photospectro8.problem|blue,colorless,reduced,oxidized,energy,dpip,light,questions,absorb,excited,nadph,nadp,electrons,atp|current||Questions for a simulated spectrophotometry lab.|problem|notset|2001-08-16 17:35:12|2001-08-16 17:35:12|wiltsem@msu|default
Spectrophotometry Lab Questions|Marlo Wiltse|Additional questions for spectrophotometry lab |/res/msu/wiltsem/spectrophotometry/spectrophotometry2.page||current||Additional questions to go with spectrophotometry lab as homework|page|notset|2001-08-16 18:30:47|2001-08-23 16:23:07|wiltsem@msu|default
Scientific Method 1 problem|Marlo Wiltse|Scientific method questions|/res/msu/wiltsem/scientificmethod/scimethod1.problem|research,experiment,scientist,qualitative,descriptive,independent,controlled,hypothesis,quantitative,scientific,measurements,method,data,numerical,variable|current||Scientific method questions|problem|notset|2001-08-18 10:27:34|2001-08-18 10:27:34|wiltsem@msu|default
Scientific Method 2 problem|Marlo Wiltse|Scientific method questions|/res/msu/wiltsem/scientificmethod/scimethod2.problem|experiment,growth,conclusion,information,condition,measurements,plant,explanation,variable|current||Scientific method questions|problem|notset|2001-08-18 10:34:28|2001-08-18 10:34:28|wiltsem@msu|default
Scientific Method 3 problem|Marlo Wiltse|Scientific method questions|/res/msu/wiltsem/scientificmethod/scimethod3.problem|experiment,scientist,measured,dependent,independent,hypothesis,measuring,test,variable|current||Scientific method questions|problem|notset|2001-08-18 10:36:05|2001-08-18 10:36:05|wiltsem@msu|default
Scientific Method Problems Page|Marlo Wiltse|Scientific Method questions|/res/msu/wiltsem/scientificmethod/scimethod.page||current||Questions about scientific method|page|notset|2001-08-18 10:47:16|2001-08-18 10:47:16|wiltsem@msu|default
Diffusion Lab Tables|Marlo Wiltse|Diffusion Lab Tables|/res/msu/wiltsem/CellTransport/Diffusionlab.problem|diffusion,starch, iodine, cell membrane,beaker,baggy|current||The data tables for a simulated diffusion lab using starch and iodine.|problem|notset|2001-08-19 21:42:26|2001-08-19 21:42:26|wiltsem@msu|default
Diffusion Lab Procedure|Marlo Wiltse|Diffusion Lab Procedure|/res/msu/wiltsem/CellTransport/diffusionlab.html|lab,color,diffusion,iodine,procedure,data,starch|current||The procedure for a simulated diffusion lab using starch and  iodine.|html|notset|2001-08-19 21:44:24|2001-08-19 21:44:24|wiltsem@msu|default
Diffusion 1 problem|Marlo Wiltse|diffusion lab questions|/res/msu/wiltsem/CellTransport/diffusionlab1.problem|experiment,diffused,simulation,beaker,baggy,lab,transport,iodine,cell,membrane,starch|current||5 questions for simulated diffusion lab about movement of starch and iodine across the membrane.|problem|notset|2001-08-19 21:46:14|2001-08-19 21:46:14|wiltsem@msu|default
Diffusion 2 problem|Marlo Wiltse|Diffusion lab questions|/res/msu/wiltsem/CellTransport/diffusionlab2.problem|pores,baggy,iodine,size,membrane,starch|current||3 individualized questions for simulated diffusion lab about pore size, molecule size and permeability.|problem|notset|2001-08-19 21:48:43|2001-08-19 21:48:43|wiltsem@msu|default
Diffusion 3 problem|Marlo Wiltse|Diffusion lab questions|/res/msu/wiltsem/CellTransport/diffusionlab3.problem|baggy,cell,fish,salt,water,membrane,freshwater|current||2 questions for simulated diffusion lab about application of lab, freshwater vs. saltwater fish, etc.|problem|notset|2001-08-19 21:51:21|2001-08-19 21:51:21|wiltsem@msu|default
Diffusion Lab|Marlo Wiltse|Diffusion Lab Page|/res/msu/wiltsem/CellTransport/Diffusionlab.page||current||Simulated diffusion lab with individualized data tables and questions|page|notset|2001-08-21 15:55:25|2001-08-21 15:55:25|wiltsem@msu|default
Nature of Matter 1 Problem|Marlo Wiltse|Matter|/res/msu/wiltsem/Ch2ChemofLife/NatMat1.problem|ionic,molecule,atom,hydrogen,element,chemical,compound,covalent,bond|current||4 problems on the nature of matter.|problem|notset|2001-09-06 07:39:04|2001-09-06 07:39:04|wiltsem@msu|default
Nature of Matter 2 problem|Marlo Wiltse|Matter|/res/msu/wiltsem/Ch2ChemofLife/NatMat2.problem|charge,molecule,electrons,atom|current||Nature of Matter problems|problem|notset|2001-09-06 07:40:51|2001-09-06 07:40:51|wiltsem@msu|default
Nature of Matter 3 problem|Marlo Wiltse|Matter|/res/msu/wiltsem/Ch2ChemofLife/NatMat3.problem|element,atom,polar,gains,positive,shared,unequal,negative,charge,molecule,amount,molecules,electron,water,electrons|current||Nature of Matter problems|problem|notset|2001-09-06 07:42:20|2001-09-06 07:42:20|wiltsem@msu|default
Nature of Matter Problems|Marlo Wiltse|Nature of Matter problems|/res/msu/wiltsem/Ch2ChemofLife/NatMatprobs.page||current||Nature of Matter problems page|page|notset|2001-09-06 07:46:01|2001-09-06 07:46:01|wiltsem@msu|default
Biothemes 1 problem|Marlo Wiltse|Biothemes questions|/res/msu/wiltsem/Ch1Bio&U/BioThemes1.problem|reproduction,organized,inherited,membrane|current||3 questions about biology themes|problem|notset|2001-08-26 21:04:37|2001-08-26 21:04:37|wiltsem@msu|default
Biothemes 2 problem|Marlo Wiltse|Biothemes questions|/res/msu/wiltsem/Ch1Bio&U/BioThemes2.problem|communities,cells,structure,environment,organism,maintaining,cell,temperature,interactions,function,organisms,structures|current||4 options questions about biology themes & characteristics|problem|notset|2001-08-26 21:06:47|2001-08-26 21:06:47|wiltsem@msu|default
Biothemes 3 problem|Marlo Wiltse|Biothemes questions|/res/msu/wiltsem/Ch1Bio&U/biothemes3.problem|temperatures,survive,characteristic,grows,traits,lifetime,offspring,organisms,characteristics|current||4 option questions about characteristics and themes in biology|problem|notset|2001-08-26 21:08:53|2001-08-26 21:08:53|wiltsem@msu|default
Biothemes Problems|Marlo Wiltse|Biothemes problems|/res/msu/wiltsem/Ch1Bio&U/biothemes.page||current||11 fill-in-the-blank and options questions about biology themes and characteristics|page|notset|2001-08-26 21:38:18|2001-08-26 21:38:18|wiltsem@msu|default
Cell Features 1 problem|Marlo Wiltse|cell Features|/res/msu/wiltsem/CellStructure/CellFeatures1.problem|schleiden,virchow,schwann,theodor,cell,rudolph,matthias|current||Questions pertaining to the cell theory, Matthis Schleiden, Theodor Schwann, and Rudloph Virchow.|problem|notset|2001-09-23 20:15:15|2001-09-23 20:15:15|wiltsem@msu|default
Cell Features 10 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures10.problem|hairlike,movement,proteins,structures,prokaryotes,cell,walls,whiplike,plant|current||3 individualized questions pertaining to flagella, cilia, cell walls of plants and bacteria.|problem|notset|2001-09-23 20:16:57|2001-09-23 20:16:57|wiltsem@msu|default
Cell Features 2 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures2.problem|cube,ratio,area,volume,surface,calculate|current||Surface area-to-volume ratio question involving calculations.|problem|notset|2001-09-23 20:18:27|2001-09-23 20:18:27|wiltsem@msu|default
Cell Features 3 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures3.problem|volume,calculate|current||Surface area-to-volume ratio question involving calculations.|problem|notset|2001-09-23 20:19:37|2001-09-23 20:19:37|wiltsem@msu|default
Cell Features 4 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures4.problem|areatovolume,ratio,area,volume,surface,calculate|current||Surface area-to-volume ratio question involving calculations.|problem|notset|2001-09-23 20:20:28|2001-09-23 20:20:28|wiltsem@msu|default
Cell Features 5 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures5.problem|areatovolume,cube,length,ratio,side,surface|current||Surface area-to-volume ratio question involving calculations.|problem|notset|2001-09-23 20:21:11|2001-09-23 20:21:11|wiltsem@msu|default
Cell Features 6 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures6.problem|areatovolume,cell,shapes|current||A surface area-to-volume ratio question applying the understanding of what shape a cell could be to survive best.|problem|notset|2001-09-23 20:21:49|2001-09-23 20:21:49|wiltsem@msu|default
Cell Features 7 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures7.problem|cell,complex,prokaryote,eukaryote|current||3 questions differentiating between prokaryotes and eukaryotes.|problem|notset|2001-09-23 20:23:19|2001-09-23 20:23:19|wiltsem@msu|default
Cell Features 8 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures8.problem|flagella,cells,bacteria,structure|current||3 questions differentiating between prokaryotes and eukaryotes.|problem|notset|2001-09-23 20:24:52|2001-09-23 20:24:52|wiltsem@msu|default
cell Features 9 problem|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures9.problem|dna,compartments,circular,cells,cell,nucleus|current||3 questions differentiating between prokaryotes and eukaryotes.|problem|notset|2001-09-23 20:25:52|2001-09-23 20:25:52|wiltsem@msu|default
Cell Features problems page|Marlo Wiltse|Cell Features|/res/msu/wiltsem/CellStructure/CellFeatures.page||current||18 individualized questions about surface area-to-volume ratio, differentiating between prokaryte and eukaryote and cell features.|page|notset|2001-09-23 20:38:05|2001-09-23 20:38:05|wiltsem@msu|default
Calorimeter lab page|Marlo Wiltse|calorimeter lab|/res/msu/wiltsem/calorimeterlab.page||current||A lab on calorimeters to find the energy available in food.|page|notset|2001-10-13 15:36:26|2001-10-13 15:36:26|wiltsem@msu|default
picture of will getting measured|Paul Ciske|Family Scene|/res/msu/ciskepau/willgetsmeasured.jpg|Measurement|current|Photo from Easter 2001|Baby's height is measured on the side of the tree.|jpg|notset|2001-06-27 11:02:19|2001-06-27 11:02:19|Paul Ciske|default
Buoyancy|Paul Ciske|High School Physical Science|/res/msu/ciskepau/buoyancy.htm|floats,buoyancy,archimedes,displaces,density|current||This resourse explains basic information on buoyancy and Archimedes' principle.
 |htm|seniso|2001-06-29 12:56:10|2001-06-29 12:56:10|ciskepau@msu|default
Density|Paul Ciske|Introduction to denstiy for high school science|/res/msu/ciskepau/density.htm|ratio,density|current||This page is designed to introduce density.  It includes two example problems.|htm|seniso|2001-06-29 12:59:47|2001-06-29 12:59:47|ciskepau@msu|default
Floaters and Sinkers|Paul Ciske|Density and Buoyancy for high school|/res/msu/ciskepau/floatersandsinkers.htm|buoyancy,Archimedes',floaters,sinks,displaced,density|current||Uses the formulas for density to determine the volume of saltwater needed for a boat to float.  Includes an example problem.|htm|seniso|2001-06-29 13:01:40|2001-06-29 13:01:40|ciskepau@msu|default
What is a fkuid|Paul Ciske|States of matter for high school|/res/msu/ciskepau/whatisafluid.htm|shape,gas,fluid,volume,solid,liquid,properties,states|current||Compares the three main states of matter in terms of shape and volume.  It uses the descriptions to introduce liquids and gases as fluids.|htm|seniso|2001-06-29 13:04:06|2001-06-29 13:04:06|ciskepau@msu|default
High School Physics|Paul Ciske|Physics|/res/msu/ciskepau/buoyancy.sequence||current|||sequence|seniso|2001-07-01 17:21:10|2001-07-18 11:11:17|ciskepau@msu|default
Identify the state|Paul Ciske|states of matter for secondary science|/res/msu/ciskepau/whatisafluid.problem|matter,states|current||Examples of differentr substances are listed for th purpose of identifying their states.|problem|seniso|2001-07-03 21:26:50|2001-07-04 14:44:48|ciskepau@msu|default
Is it a fluid?|Paul Ciske|fluid identification for high school|/res/msu/ciskepau/isitafluid.problem|state,fluid|current||Several substances are listed.  The students are asked to identify the fluids.
 |problem|seniso|2001-07-03 21:48:11|2001-07-03 21:48:11|ciskepau@msu|default
States and Fluids|Paul Ciske|Identify states and fluids for high school science|/res/msu/ciskepau/fluid.page|fluids,states, classification|current||Collection of identification problems for states and fluids.|page|seniso|2001-07-03 22:16:59|2001-07-03 22:16:59|ciskepau@msu|default
buoyancy1|||/res/msu/ciskepau/displace.gif||current|||gif|notset|2001-07-03 23:38:28|2001-07-03 23:38:28||default
buoyancy2|||/res/msu/ciskepau/displace2.gif||current|||gif|notset|2001-07-03 23:39:02|2001-07-03 23:39:02||default
buoyancy3|Paul Ciske||/res/msu/ciskepau/displace3.gif||current|||gif|notset|2001-07-03 21:26:50|2001-07-03 23:39:19|ciskepau@msu|default
buoyancy4|||/res/msu/ciskepau/displace4.gif||current|||gif|notset|2001-07-03 23:39:36|2001-07-03 23:39:36||default
density problem|Paul Ciske|density|/res/msu/ciskepau/density.problem|density|current|||problem|seniso|2001-07-04 15:47:46|2002-09-04 09:52:09|ciskepau@msu|default
density lab problem|Paul Ciske|density|/res/msu/ciskepau/density2.problem|density|current|||problem|seniso|2001-07-04 15:48:53|2002-09-04 09:52:58|ciskepau@msu|default
density problems|Paul Ciske|A collection of two density problems.|/res/msu/ciskepau/densityproblems.page||current|||page|seniso|2001-07-04 14:50:47|2001-07-04 14:50:47|ciskepau@msu|default
buoyancy problem|Paul Ciske||/res/msu/ciskepau/floater.problem|buoyancy,density,float|current|||problem|seniso|2001-07-04 16:18:19|2002-09-04 09:55:44|ciskepau@msu|default
buoyancy 2|Paul Ciske|buoyancy problem|/res/msu/ciskepau/floater2.problem|buoyancy,density|current|||problem|seniso|2001-07-04 16:29:14|2002-09-04 09:56:27|ciskepau@msu|default
buoyancy problem 3|Paul Ciske||/res/msu/ciskepau/floater3.problem|buoyancy,density,displace|current|||problem|seniso|2001-07-04 16:37:16|2002-09-04 09:57:02|ciskepau@msu|default
A collection of buoyancy problems|Paul Ciske|buoyancy|/res/msu/ciskepau/buoyancyproblems.page||current|||page|seniso|2001-07-04 15:43:58|2001-07-04 15:43:58|ciskepau@msu|default
Fluid Mechanics|Paul Ciske|high school physical science|/res/msu/ciskepau/fluidmechanics.page|float,density,buoyancy|current|||page|seniso|2001-07-04 22:51:10|2001-09-05 14:16:10|ciskepau@msu|default
Roller Coaster Drawing|Paul Ciske|Conservation of Energy|/res/msu/ciskepau/rollercoaster.gif|Energy,motion|current|||gif|notset|2001-07-09 10:30:37|2001-07-09 10:30:37|Paul Ciske|default
Motion of a Car Problem|Paul Ciske|motion and energy|/res/msu/ciskepau/car1.problem|energy,force,deceleration|current||A multi step problem on force, motion and energy.|problem|seniso|2001-07-10 12:49:21|2001-08-30 14:46:16|ciskepau@msu|default
Kinetic Energy of a bullet|Paul Ciske|kinetic energy|/res/msu/ciskepau/bulletke.problem|energy,kinetic|current||A simple kinetic energy problem|problem|seniso|2001-07-10 12:50:58|2002-03-19 10:16:08|ciskepau@msu|default
Gramitavitational Potential Energy|Paul Ciske|energy|/res/msu/ciskepau/rockpe.problem|energy,potential|current||A simple potential energy problem.|problem|seniso|2001-07-10 12:52:08|2001-08-30 14:17:55|ciskepau@msu|default
A box on an inclined plane|Paul Ciske||/res/msu/ciskepau/inclinedplane.problem|energy,work,potential,force|current||A multi step problem about work energy and friction.|problem|seniso|2001-07-10 12:53:24|2002-03-19 10:49:20|ciskepau@msu|default
Energy of a roller coaster|Paul Ciske||/res/msu/ciskepau/rollercoaster1.problem|energy,speed,kinetic,potential,velocity|current||A conceptual problem aboiut energy changes ona roller coaster.|problem|seniso|2001-07-10 12:54:39|2002-01-25 15:02:45|ciskepau@msu|default
The work of moving a box|Paul Ciske||/res/msu/ciskepau/boxwork.problem|work,force|current||A simple problem invoving force work and distance.|problem|seniso|2001-07-10 12:55:50|2002-03-19 10:16:39|ciskepau@msu|default
Mechanics true and false|Paul Ciske||/res/msu/ciskepau/fundamentals.problem|acceleration,energy,inertia,friction,work,conservation,force,weight|current||A collection of 8 true-false questions about energy and motion.|problem|seniso|2001-07-10 12:56:54|2001-07-10 12:56:54|ciskepau@msu|default
Problems on Introductory Mechanics|Paul Ciske|Physics|/res/msu/ciskepau/fundamentals.page||current||A collection of questions and problems on introductory mechanics.|page|seniso|2001-07-10 13:11:08|2001-08-23 16:13:46|ciskepau@msu|default
Car Lift|Paul Ciske|Pascal's Principle|/res/msu/ciskepau/pascal.problem|force,pressure|current||A problem of force transfer in a car lift.|problem|seniso|2001-07-11 09:27:35|2002-09-04 10:06:55|ciskepau@msu|default
Mountain Profile|Paul Ciske|Pressure|/res/msu/ciskepau/mountainprofile.gif|pressure|current||Profile of a mountainside with water|gif|notset|2001-07-11 11:26:56|2001-07-11 11:26:56|Paul Ciske|default
Pressure and Elevation|Paul Ciske|Pressure|/res/msu/ciskepau/depth.problem|altitude,pressure|current||A randome Label comparing altitude, density and pressure.|problem|seniso|2001-07-11 12:03:00|2001-07-11 12:03:00|ciskepau@msu|default
Pressure at the bottom of a tank.|Paul Ciske|pressure|/res/msu/ciskepau/depth2.problem|depth,pressure|current||A problem of depth in a tank and pressure.|problem|seniso|2001-07-11 13:04:41|2002-09-04 09:53:52|ciskepau@msu|default
Rise or Fall|Paul Ciske||/res/msu/ciskepau/float.problem|buoyancy,floats,sinks|current||A series of examples about buoyancy and water levels.|problem|seniso|2001-07-11 13:06:07|2002-09-04 09:54:47|ciskepau@msu|default
Fluid Questions|Paul Ciske|fluid pressure|/res/msu/ciskepau/fluidlabs.problem|density,fluid,pressure|current||A collection of 10 true/false statements on fluid pressure.|problem|seniso|2001-07-11 13:53:11|2002-09-04 09:58:21|ciskepau@msu|default
Heat Capacity Problem 1|Paul Ciske|Heat|/res/msu/ciskepau/heat1.problem|heat,energy|current|||problem|seniso|2001-07-11 14:51:29|2001-09-24 08:33:51|ciskepau@msu|default
Specific Heat Experiment|Paul Ciske|Heat|/res/msu/ciskepau/heat2.problem|experiment,equilibrium,thermal,specific|current|||problem|seniso|2001-07-11 15:16:01|2001-09-25 14:21:06|ciskepau@msu|default
Thermal Equilibrium 1|Paul Ciske|heat|/res/msu/ciskepau/heat3.problem|heat,equilibrium,temperature|current|||problem|seniso|2001-07-11 16:01:43|2001-09-17 16:47:26|ciskepau@msu|default
Thermal Equilibrium 2|Paul Ciske|Heat|/res/msu/ciskepau/heat4.problem|equilibrium,heated,temperature|current|||problem|seniso|2001-07-11 16:44:47|2001-09-25 14:22:15|ciskepau@msu|default
Latent Heat 1|Paul Ciske|Heat|/res/msu/ciskepau/heat5.problem|heat,state,change,latent|current|||problem|seniso|2001-07-11 16:58:21|2001-07-11 21:31:43|ciskepau@msu|default
Latent Heat 2|Paul Ciske|Heat|/res/msu/ciskepau/heat6.problem|heat,energy,states,latent|current|||problem|seniso|2001-07-11 17:10:42|2001-10-02 16:23:15|ciskepau@msu|default
Latent Heat 3|Paul Ciske|Heat|/res/msu/ciskepau/heat7.problem|heat,equilibrium,temperature|current|||problem|seniso|2001-07-11 17:33:31|2001-09-17 16:47:04|ciskepau@msu|default
Comparing Heat Values|Paul Ciske|Heat|/res/msu/ciskepau/heat8.problem|heat,specific,boiling,change,boil,melt,temperature,melting|current|||problem|seniso|2001-07-11 18:13:05|2001-09-18 15:02:47|ciskepau@msu|default
Heat Demo Evaluation|Paul Ciske|Heat|/res/msu/ciskepau/heatdemo.problem|heat,energy,temperature|current|||problem|seniso|2001-07-11 18:37:28|2001-07-11 18:37:28|ciskepau@msu|default
Heat|Paul Ciske|Heat|/res/msu/ciskepau/heat.page||current||A collection of problems on heat and thermal equilibrium.|page|seniso|2001-07-11 20:32:30|2001-09-17 17:52:14|ciskepau@msu|default
Mio Physics Welcome|Paul Ciske||/res/msu/ciskepau/miophysicswelcome.htm||current|||htm|seniso|2001-07-11 22:25:05|2001-07-11 22:25:05|ciskepau@msu|default
Wave characteristics|Paul Ciske|waves|/res/msu/ciskepau/wavedemo.problem|reflect,wave,refraction,medium,frequency,difraction|current||True False Statements onwave properties.|problem|seniso|2001-07-12 08:56:25|2001-07-12 16:26:13|ciskepau@msu|default
lens diagram|Paul Ciske|refraction|/res/msu/ciskepau/lens.gif||current|light,refraction||gif|notset|2001-07-11 22:26:32|2001-07-12 09:13:03||default
Object-Image Relationships for a Lens|Paul Ciske|refraction|/res/msu/ciskepau/raydiagram.problem|refraction,lens|current|||problem|seniso|2001-07-12 10:32:51|2001-11-08 17:19:52|ciskepau@msu|default
wave problem|Paul Ciske|waves|/res/msu/ciskepau/wave1.problem||current|||problem|seniso|2001-07-12 10:48:54|2001-07-12 10:48:54|ciskepau@msu|default
frequency period problem|Paul Ciske|waves|/res/msu/ciskepau/wave2.problem||current|||problem|seniso|2001-07-12 16:06:19|2001-10-08 13:31:22|ciskepau@msu|default
Wave speed and frequency|Paul Ciske|wave|/res/msu/ciskepau/wave3.problem|frequency|current|||problem|seniso|2001-07-12 16:16:10|2001-10-03 13:41:26|ciskepau@msu|default
Waves|Paul Ciske|waves|/res/msu/ciskepau/waveproblems.page||current||A collection of wave problems.|page|seniso|2001-07-12 16:20:55|2001-10-08 13:34:47|ciskepau@msu|default
type of image for curved mirrors|Paul Ciske|reflection|/res/msu/ciskepau/reflect1.problem|virtual,concave,convex,image|current|||problem|seniso|2001-07-12 18:31:07|2001-07-12 18:31:07|ciskepau@msu|default
Questions on Sound|paul Ciske|sound|/res/msu/ciskepau/sounddemos.problem|wavelength,wave,sound,vibrations,harmonic,beat|current|||problem|seniso|2001-07-17 18:03:15|2001-10-18 14:33:11|ciskepau@msu|default
sound intensity 1|paul Ciske|sound|/res/msu/ciskepau/sound1.problem|sound,intensity|current|||problem|seniso|2001-07-17 18:04:38|2001-10-18 17:16:30|ciskepau@msu|default
sound intensity 2|paul Ciske|sound|/res/msu/ciskepau/sound2.problem|sound,intensity|current|||problem|seniso|2001-07-17 18:05:20|2001-10-18 17:17:39|ciskepau@msu|default
sound intensity 4|paul Ciske|sound|/res/msu/ciskepau/sound3.problem|power,sound,intensity|current|||problem|seniso|2001-07-17 18:06:00|2001-10-18 17:18:40|ciskepau@msu|default
sound intensity 4|paul Ciske|sound|/res/msu/ciskepau/sound4.problem|sound|current|||problem|seniso|2001-07-17 18:06:36|2001-10-18 17:19:15|ciskepau@msu|default
Sound|paul Ciske|sound|/res/msu/ciskepau/sound.page||current|||page|seniso|2001-07-17 18:20:51|2001-10-18 16:47:15|ciskepau@msu|default
reflection diagram|PAul Ciske|reflection |/res/msu/ciskepau/reflection.gif||current|||gif|seniso|2001-07-17 21:17:41|2001-10-30 09:56:58|mmp@msu (Michigan State University)|default
angle of reflection problem|paul Ciske|reflection|/res/msu/ciskepau/reflectionimage.problem||current|||problem|seniso|2001-07-17 22:56:55|2001-10-30 09:58:37|ciskepau@msu|default
Reflection Problem 1|Paul Ciske|reflection|/res/msu/ciskepau/reflection1.problem|reflection|current|||problem|seniso|2001-07-18 10:55:29|2001-11-05 11:02:10|ciskepau@msu|default
Reflection Problem 2|Paul Ciske|relfection|/res/msu/ciskepau/reflection2.problem|mirror,convex|current|||problem|seniso|2001-07-18 10:56:27|2001-11-05 15:57:12|ciskepau@msu|default
Reflection Problem 3|Paul Ciske|reflection|/res/msu/ciskepau/reflection3.problem||current|||problem|seniso|2001-07-18 10:57:14|2001-11-05 11:13:46|ciskepau@msu|default
Reflection Problem 4|paul Ciske|reflection|/res/msu/ciskepau/reflection4.problem||current|||problem|seniso|2001-07-18 10:58:03|2001-11-05 16:24:21|ciskepau@msu|default
Reflection Questions|paul Ciske|reflection|/res/msu/ciskepau/reflection5.problem||current|||problem|seniso|2001-07-18 10:58:49|2001-07-18 10:58:49|ciskepau@msu|default
Reflection of Light|paul Ciske|reflection|/res/msu/ciskepau/reflection.page||current|||page|seniso|2001-07-18 11:04:17|2001-11-05 16:58:25|ciskepau@msu|default
Top-level map at MAHS, 2001|Paul Ciske|physics|/res/msu/ciskepau/MAHSphysics2001.sequence||current||Top level map used by Mio-AuSable High School, Mio Michigan.  2001-2002 school year.|sequence|seniso|2001-07-18 15:39:39|2002-05-08 10:16:22|ciskepau@msu|default
formulas from names|Paul Ciske|chemistry|/res/msu/ciskepau/nomenclature1.problem|compounds,formula|current|||problem|seniso|2001-07-18 22:29:21|2001-07-20 10:58:02|ciskepau@msu|default
Naming Inorganic Compounds|Paul Ciske|Inorganic Nomenclature|/res/msu/ciskepau/chemistry/nomenclature.page||current|||page|seniso|2001-07-18 22:34:14|2001-07-20 11:04:13|ciskepau@msu|default
names from formulas|Paul Ciske|chemistry|/res/msu/ciskepau/chemistry/nomenclature2.problem|nomenclature|current|||problem|seniso|2001-07-20 10:59:12|2001-07-20 10:59:12|ciskepau@msu|default
Names from formulas 2|paul Ciske||/res/msu/ciskepau/chemistry/nomenclature3.problem|nomenclature|current|||problem|seniso|2001-07-20 11:00:36|2001-07-20 11:00:36|ciskepau@msu|default
Formulas from names 2|paul Ciske||/res/msu/ciskepau/chemistry/nomenclature4.problem|compounds,formula|current|||problem|seniso|2001-07-20 11:01:22|2001-07-20 11:01:22|ciskepau@msu|default
MAHS Chemistry 2001|paul Ciske|chemistry|/res/msu/ciskepau/MAHSchemistry2001.sequence||current||Top Level Sequence for college bound chemistry at Mio AuSable High School.|sequence|seniso|1969-12-31 19:32:49|2002-10-15 10:52:45|ciskepau@msu|default
percent 3|paul Ciske|percent|/res/msu/ciskepau/math/intro21.problem||current|||problem|seniso|2001-08-06 12:42:56|2001-08-06 12:42:56|ciskepau@msu|default
percent 2|paul Ciske|percent|/res/msu/ciskepau/math/intro20.problem|percent|current|||problem|seniso|2001-08-06 12:44:02|2001-08-06 12:44:02|ciskepau@msu|default
percent 1|paul Ciske|percent|/res/msu/ciskepau/math/intro19.problem|percent|current|||problem|seniso|2001-08-06 12:44:54|2001-08-06 12:44:54|ciskepau@msu|default
multiplication 1|paul Ciske|multiplication|/res/msu/ciskepau/math/intro1.problem||current|||problem|seniso|2001-08-06 12:45:53|2001-08-06 12:45:53|ciskepau@msu|default
division 1|paul Ciske|division|/res/msu/ciskepau/math/intro10.problem||current|||problem|seniso|2001-08-06 12:46:52|2001-08-07 10:02:18|ciskepau@msu|default
division 2|paul Ciske|division|/res/msu/ciskepau/math/intro11.problem||current|||problem|seniso|2001-08-06 12:48:14|2001-08-06 12:48:14|ciskepau@msu|default
division 3|paul Ciske|division|/res/msu/ciskepau/math/intro12.problem||current|||problem|notset|2001-08-06 12:49:06|2001-08-06 12:49:06|ciskepau@msu|default
addition 1|paul Ciske|addition|/res/msu/ciskepau/math/intro13.problem||current|||problem|notset|2001-08-06 12:49:53|2001-08-06 12:49:53|ciskepau@msu|default
addition 2|paul Ciske||/res/msu/ciskepau/math/intro14.problem||current|||problem|notset|2001-08-06 12:50:41|2001-08-06 12:50:41|ciskepau@msu|default
addition 3|paul Ciske||/res/msu/ciskepau/math/intro15.problem||current|||problem|notset|2001-08-06 12:51:17|2001-08-06 12:51:17|ciskepau@msu|default
subtraction 1|paul Ciske||/res/msu/ciskepau/math/intro16.problem||current|||problem|notset|2001-08-06 12:57:17|2001-08-06 12:57:17|ciskepau@msu|default
subtraction 2|paul Ciske||/res/msu/ciskepau/math/intro17.problem||current|||problem|notset|2001-08-06 12:57:50|2001-08-06 12:57:50|ciskepau@msu|default
subtraction 3|paul Ciske||/res/msu/ciskepau/math/intro18.problem||current|||problem|notset|2001-08-06 13:05:36|2001-08-06 13:05:36|ciskepau@msu|default
division 0|paul Ciske||/res/msu/ciskepau/math/intro2.problem||current|||problem|notset|2001-08-06 13:06:11|2001-08-06 13:06:11|ciskepau@msu|default
addition 0|paul Ciske||/res/msu/ciskepau/math/intro3.problem||current|||problem|notset|2001-08-06 13:06:44|2001-08-06 13:06:44|ciskepau@msu|default
subtraction 0|paul Ciske||/res/msu/ciskepau/math/intro4.problem||current|||problem|notset|2001-08-06 13:07:20|2001-08-06 13:07:20|ciskepau@msu|default
multiplication 3|paul Ciske||/res/msu/ciskepau/math/intro5.problem||current|||problem|notset|2001-08-06 13:07:50|2001-08-06 13:07:50|ciskepau@msu|default
multiplication 4|paul Ciske||/res/msu/ciskepau/math/intro6.problem||current|||problem|notset|2001-08-06 13:08:24|2001-08-06 13:08:24|ciskepau@msu|default
multiplication 5|paul Ciske||/res/msu/ciskepau/math/intro7.problem||current|||problem|notset|2001-08-06 13:20:05|2001-08-06 13:20:05|ciskepau@msu|default
multiplication 6|paul Ciske||/res/msu/ciskepau/math/intro8.problem||current|||problem|notset|2001-08-06 13:20:42|2001-08-06 13:20:42|ciskepau@msu|default
multiplication 7|paul Ciske||/res/msu/ciskepau/math/intro9.problem||current|||problem|notset|2001-08-06 13:21:20|2001-08-06 13:21:20|ciskepau@msu|default
Basic Math Lesson 1|paul Ciske||/res/msu/ciskepau/math/lesson1.page||current|||page|seniso|2001-08-06 13:50:08|2001-08-06 13:50:08|ciskepau@msu|default
Lesson 2 - Addition and Subtraction|paul Ciske||/res/msu/ciskepau/math/lesson2.page||current|||page|notset|2001-08-07 10:38:03|2001-08-07 10:38:03|ciskepau@msu|default
Lesson 3 Addition and Subtraction|paul Ciske||/res/msu/ciskepau/math/lesson3.page||current|||page|seniso|2001-08-07 11:02:13|2001-08-07 11:02:13|ciskepau@msu|default
Lesson 4 - Multiplication and Division|paul Ciske||/res/msu/ciskepau/math/lesson4.page||current|||page|seniso|2001-08-07 11:34:59|2001-08-07 11:34:59|ciskepau@msu|default
Lesson 5 - Percents|paul Ciske||/res/msu/ciskepau/math/lesson5.page||current|||page|seniso|2001-08-08 09:54:34|2001-08-08 09:54:34|ciskepau@msu|default
calculator cartoon|||/res/msu/ciskepau/math/calcltr.gif||current||cip art from discovery.com|gif|seniso|2001-07-17 21:09:52|2001-08-08 10:23:09|discovery.com|default
Welcome Page for Mio Consumers Math Class|paul Ciske||/res/msu/ciskepau/math/consmathwelcome.html||current|||html|seniso|2001-08-08 10:26:15|2001-08-08 10:26:15|ciskepau@msu|default
Lesson 5 - Multiplication and Division|paul Ciske||/res/msu/ciskepau/math/lesson6.page||current|||page|seniso|2001-08-08 11:00:51|2001-08-08 11:00:51|ciskepau@msu|default
Application 1|paul Ciske||/res/msu/ciskepau/math/intro22.problem||current|||problem|seniso|2001-08-08 12:50:09|2001-08-08 12:50:09|ciskepau@msu|default
application 2|paul Ciske||/res/msu/ciskepau/math/intro23.problem||current|||problem|seniso|2001-08-09 09:37:44|2001-08-09 09:37:44|ciskepau@msu|default
application 3|paul Ciske|math|/res/msu/ciskepau/math/intro24.problem||current|||problem|seniso|2001-08-09 09:45:53|2001-08-09 09:45:53|ciskepau@msu|default
application 4|paul Ciske|math|/res/msu/ciskepau/math/intro25.problem|percent,sale,price|current|||problem|seniso|2001-08-09 10:10:23|2001-08-09 10:10:23|ciskepau@msu|default
application 5|paul Ciske|math|/res/msu/ciskepau/math/intro26.problem||current|||problem|seniso|2001-08-09 10:21:58|2001-08-09 10:21:58|ciskepau@msu|default
application 6|paul Ciske|math|/res/msu/ciskepau/math/intro27.problem||current|||problem|seniso|2001-08-09 10:43:30|2001-08-09 10:43:30|ciskepau@msu|default
application 7|paul Ciske||/res/msu/ciskepau/math/intro28.problem||current|||problem|seniso|2001-08-09 10:48:51|2001-08-09 10:48:51|ciskepau@msu|default
application 8|paul Ciske|math|/res/msu/ciskepau/math/intro29.problem||current|||problem|seniso|2001-08-09 11:18:17|2001-08-09 11:18:17|ciskepau@msu|default
application 9|paul Ciske|math|/res/msu/ciskepau/math/intro30.problem||current|||problem|seniso|2001-08-09 11:36:44|2001-08-09 11:36:44|ciskepau@msu|default
Lesson 7 - Application Questions|paul Ciske|math|/res/msu/ciskepau/math/lesson7.page||current|||page|seniso|2001-08-10 10:21:43|2001-08-10 10:21:43|ciskepau@msu|default
Lesson 8 - Mixed Review|paul Ciske|math|/res/msu/ciskepau/math/lesson8.page||current|||page|seniso|2001-08-16 16:12:25|2001-08-22 17:35:42|ciskepau@msu|default
MAHS Consumers Math 2001|paul Ciske||/res/msu/ciskepau/MAHSconsmath2001.sequence||current||Top Level sequence to be used in consumers math at Mio AuSable High School.|sequence|seniso|2001-08-07 10:40:10|2002-04-16 17:13:55|ciskepau@msu|default
conversion 2|paul Ciske||/res/msu/ciskepau/pintro/conversion2.problem|conversions|current|||problem|seniso|2001-08-20 14:28:57|2002-08-28 14:05:19|ciskepau@msu|default
fundamental or derived|paul Ciske||/res/msu/ciskepau/pintro/unit.problem|unit|current|||problem|seniso|2001-08-20 15:46:28|2002-08-28 14:06:27|ciskepau@msu|default
Error and Deviation|paul Ciske||/res/msu/ciskepau/pintro/error.problem|deviation,error|current|||problem|seniso|1969-12-31 19:33:21|2002-08-29 10:23:24|ciskepau@msu|default
friction on a plane 1|paul Ciske||/res/msu/ciskepau/pintro/friction.problem|force,friction|current|||problem|seniso|2001-08-21 11:37:14|2001-08-21 11:37:14|ciskepau@msu|default
rollercoaster diagram|paul Ciske||/res/msu/ciskepau/pintro/rollercoast.gif||current|||gif|notset|2001-08-21 13:58:24|2001-08-21 13:58:24|ciskepau@msu|default
speed 1|paul Ciske||/res/msu/ciskepau/pintro/speed.problem||current|||problem|seniso|2001-08-23 15:54:51|2001-08-23 15:54:51|ciskepau@msu|default
acceleration1|paul Ciske||/res/msu/ciskepau/pintro/accel.problem||current|||problem|seniso|2001-08-23 15:58:45|2001-08-23 15:58:45|ciskepau@msu|default
volume and area 1|paul Ciske||/res/msu/ciskepau/pintro/cylinder.problem||current|||problem|seniso|2001-08-23 16:11:49|2001-08-28 08:39:05|ciskepau@msu|default
concave mirror|paul Ciske|reflection|/res/msu/ciskepau/concave.gif||current|||gif|seniso|2001-10-21 14:28:34|2001-10-21 14:28:34|ciskepau@msu|default
Semester One Review - Problem Set One|paul Ciske||/res/msu/ciskepau/review/physicssemesterone.page||current|||page|seniso|2001-12-11 12:13:57|2001-12-11 12:13:57|ciskepau@msu|default
Physics Semester One Review|Paul Ciske|Physics|/res/msu/ciskepau/review/physicssemesterone2.page||current|||page|notset|2001-12-13 17:06:31|2001-12-13 17:06:31|ciskepau@msu|default
Density Collumn Diagram|paul Ciske|Density|/res/msu/ciskepau/fluids/densitycollum.gif||current|||gif|seniso|2001-09-05 08:59:55|2001-09-05 08:59:55|ciskepau@msu|default
fluid forces tru/false|paul Ciske||/res/msu/ciskepau/fluids/truefalse1.problem|buoyant,fluids,force,hydraulic|current|||problem|seniso|1969-12-31 19:33:21|2002-09-13 10:22:18|ciskepau@msu|default
time to fill the bucket|paul Ciske||/res/msu/ciskepau/fluids/bucket.problem|cylindrical,height|current|||problem|seniso|2001-09-05 14:23:20|2002-09-04 10:04:22|ciskepau@msu|default
density collumn questions|paul Ciske||/res/msu/ciskepau/fluids/densitycollumn.problem|buoyant,density,diagram,force,liquid,liquids,pressure,solid,weight|current|||problem|seniso|2001-09-05 14:24:08|2002-09-04 10:03:53|ciskepau@msu|default
speed of a leak|paul Ciske||/res/msu/ciskepau/fluids/fluidspeed.problem|height,speed,water|current|||problem|seniso|2001-09-05 14:24:56|2002-09-04 10:03:19|ciskepau@msu|default
absolute pressure 1|paul Ciske||/res/msu/ciskepau/fluids/pressure1.problem|pressure|current|||problem|seniso|2001-09-05 14:28:50|2002-09-04 10:02:50|ciskepau@msu|default
absolute pressure 2|paul Ciske||/res/msu/ciskepau/fluids/pressure2.problem|density,pressure,water|current|||problem|seniso|2001-09-05 14:29:38|2002-09-04 10:02:16|ciskepau@msu|default
pressure on a sub window|paul Ciske||/res/msu/ciskepau/fluids/pressure3.problem|air,force,pressure,radius,surface|current|||problem|seniso|2001-09-05 14:34:37|2002-09-04 10:01:54|ciskepau@msu|default
raft and gear|paul Ciske||/res/msu/ciskepau/fluids/raft.problem|density,height,kg,length,mass,water|current|||problem|seniso|2001-09-05 14:35:26|2002-09-04 10:00:00|ciskepau@msu|default
snall's law 1|paul Ciske|refraction|/res/msu/ciskepau/Refraction/refraction1.problem|prism,refraction|current|||problem|seniso|2001-11-07 12:11:10|2001-11-07 12:11:10|ciskepau@msu|default
Mechanical Equivilent of Heat #1|paul Ciske||/res/msu/ciskepau/heat9.problem|heat,energy|current|||problem|seniso|2001-09-17 16:28:25|2001-09-25 14:42:39|ciskepau@msu|default
Mechanical Equivilent of Heat 2|paul Ciske||/res/msu/ciskepau/heat10.problem||current|||problem|seniso|2001-09-17 16:58:16|2001-09-17 16:58:16|ciskepau@msu|default
Thermal Equilibrium problem|paul Ciske||/res/msu/ciskepau/heat11.problem||current|||problem|seniso|2001-09-17 17:26:40|2001-09-17 17:26:40|ciskepau@msu|default
state change 2|paul Ciske||/res/msu/ciskepau/heat12.problem||current|||problem|seniso|2001-09-17 17:50:03|2001-09-17 17:50:03|ciskepau@msu|default
Optional Review Heat Problems|paul Ciske|Heat|/res/msu/ciskepau/heatreview.page||current|||page|seniso|2001-10-02 16:27:36|2001-10-02 16:27:36|ciskepau@msu|default
wave vocabulary|paul Ciske||/res/msu/ciskepau/wave4.problem||current|||problem|seniso|2001-10-02 17:57:22|2001-10-02 17:57:22|ciskepau@msu|default
Wave Relationships|paul Ciske||/res/msu/ciskepau/wave5.problem||current|||problem|seniso|2001-10-03 09:25:48|2001-10-03 09:25:48|ciskepau@msu|default
wave problem 6|paul Ciske||/res/msu/ciskepau/wave6.problem||current|||problem|seniso|2001-10-03 10:46:43|2001-10-03 10:46:43|ciskepau@msu|default
Wave problem 7|paul Ciske||/res/msu/ciskepau/wave7.problem||current|||problem|seniso|2001-10-03 10:55:44|2001-10-03 13:45:49|ciskepau@msu|default
Period and frequency|paul Ciske||/res/msu/ciskepau/wave8.problem||current|||problem|seniso|2001-10-08 13:18:17|2001-10-08 13:18:17|ciskepau@msu|default
wavelength of sound|paul Ciske||/res/msu/ciskepau/sound5.problem||current|||problem|seniso|2001-10-18 15:02:04|2001-10-18 15:02:04|ciskepau@msu|default
period of a sound wave|paul Ciske||/res/msu/ciskepau/sound6.problem||current|||problem|seniso|2001-10-18 15:19:49|2001-10-18 15:19:49|ciskepau@msu|default
resonance experiment|paul Ciske||/res/msu/ciskepau/sound7.problem||current|||problem|seniso|2001-10-18 15:54:30|2001-10-18 17:23:41|ciskepau@msu|default
comparing sound properties|paul Ciske||/res/msu/ciskepau/sound8.problem||current|||problem|seniso|2001-10-18 16:37:08|2001-10-18 16:37:08|ciskepau@msu|default
Mirror Problem 6|paul Ciske||/res/msu/ciskepau/reflection6.problem||current|||problem|seniso|2001-10-31 10:01:04|2001-11-19 09:23:22|ciskepau@msu|default
mirror problem 7|paul Ciske||/res/msu/ciskepau/reflection7.problem|reflecting,mirror,concave|current|||problem|seniso|2001-10-31 10:15:19|2001-10-31 10:15:19|ciskepau@msu|default
object image relationships 2|paul Ciske|reflection|/res/msu/ciskepau/reflection8.problem|mirror,concave,image|current|||problem|seniso|2001-11-01 10:01:19|2001-11-05 16:08:47|ciskepau@msu|default
itensity-distance relationship|paul Ciske||/res/msu/ciskepau/reflection9.problem|luminous,flux|current|||problem|seniso|2001-11-02 10:08:32|2001-11-02 10:08:32|ciskepau@msu|default
mirror problem 10|paul Ciske||/res/msu/ciskepau/reflection10.problem|concave,mirror,magnification|current|||problem|seniso|2001-11-05 14:06:42|2001-11-05 14:06:42|ciskepau@msu|default
mirror problem 11|paul Ciske||/res/msu/ciskepau/reflection11.problem|concave,image,focal|current|||problem|seniso|2001-11-05 14:16:24|2001-11-05 14:16:24|ciskepau@msu|default
mirror problem 12|paul Ciske|reflection|/res/msu/ciskepau/reflection12.problem|mirror,convex,magnification|current|||problem|seniso|2001-11-05 14:38:54|2001-11-05 14:38:54|ciskepau@msu|default
snell's law 2|paul Ciske||/res/msu/ciskepau/refraction2.problem|refraction|current|||problem|seniso|2001-11-07 12:58:00|2001-11-07 12:58:00|ciskepau@msu|default
snells law 3|paul Ciske||/res/msu/ciskepau/refraction3.problem|refraction|current|||problem|seniso|2001-11-07 13:28:30|2001-11-07 13:28:30|ciskepau@msu|default
speed of light 1|paul Ciske||/res/msu/ciskepau/refraction4.problem|refraction,light|current|||problem|seniso|2001-11-07 14:28:42|2001-11-07 14:28:42|ciskepau@msu|default
snells law 4|paul Ciske||/res/msu/ciskepau/refraction5.problem|index,refraction|current|||problem|seniso|2001-11-07 14:45:54|2001-12-01 12:19:05|ciskepau@msu|default
image for object image relationships in lenses|paul Ciske||/res/msu/ciskepau/lensdiagram.gif||current|||gif|notset|2001-11-07 15:03:02|2001-11-07 15:03:02|ciskepau@msu|default
critical angle 1|paul Ciske||/res/msu/ciskepau/refraction6.problem|refraction|current|||problem|seniso|2001-11-08 16:55:38|2001-11-08 16:55:38|ciskepau@msu|default
critical angle 2|paul Ciske||/res/msu/ciskepau/refraction7.problem|refraction|current|||problem|seniso|2001-11-08 17:07:32|2001-12-03 09:20:50|ciskepau@msu|default
lens problem 1|paul Ciske||/res/msu/ciskepau/refraction8.problem|lens|current|||problem|seniso|2001-11-08 17:33:20|2001-11-08 17:33:20|ciskepau@msu|default
lens problem 2|paul Ciske|refraction|/res/msu/ciskepau/refraction9.problem|lens|current|||problem|seniso|2001-11-09 09:57:03|2001-11-09 09:57:03|ciskepau@msu|default
diagram of converging,diverging lens system|paul Ciske|lens|/res/msu/ciskepau/diverging.gif||current|||gif|notset|2001-11-13 17:23:32|2001-11-13 17:23:32|ciskepau@msu|default
diagram of a system of three convex lenses|paul Ciske||/res/msu/ciskepau/systemoflenses.gif||current|||gif|notset|2001-11-13 17:24:28|2001-11-13 17:24:28|ciskepau@msu|default
diverging lens lab|paul Ciske|lens|/res/msu/ciskepau/refraction10.problem||current|||problem|seniso|2001-11-13 17:52:54|2001-11-13 17:52:54|ciskepau@msu|default
system of lenses|paul Ciske||/res/msu/ciskepau/refraction11.problem|lenses,magnification|current|||problem|notset|2001-11-14 14:28:35|2001-12-06 09:41:25|ciskepau@msu|default
diverging lens #2|paul Ciske|refraction|/res/msu/ciskepau/refraction10b.problem||current|||problem|seniso|2001-11-16 15:29:54|2001-11-21 14:49:52|ciskepau@msu|default
lens 1|paul Ciske|refraction|/res/msu/ciskepau/refraction12.problem||current|||problem|seniso|2001-11-16 15:33:03|2001-11-16 15:33:03|ciskepau@msu|default
lens2|paul Ciske||/res/msu/ciskepau/refraction13.problem|lens|current|||problem|seniso|2001-11-16 15:37:02|2001-12-04 09:32:06|ciskepau@msu|default
lens3|paul Ciske||/res/msu/ciskepau/refraction14.problem|lens|current|||problem|seniso|2001-11-16 15:39:13|2001-11-16 15:39:13|ciskepau@msu|default
lens4|paul Ciske||/res/msu/ciskepau/refraction15.problem|lens|current|||problem|seniso|2001-11-16 15:42:44|2001-11-16 15:42:44|ciskepau@msu|default
Refraction problems|Paul Ciske||/res/msu/ciskepau/refraction.page||current|||page|seniso|2001-11-20 13:54:30|2001-11-21 15:14:48|ciskepau@msu|default
Object image signs for lenses|Paul Ciske|refraction|/res/msu/ciskepau/refraction16.problem|lens|current|||problem|seniso|2001-11-20 17:26:23|2001-11-21 14:32:18|ciskepau@msu|default
Static Electricity|paul Ciske|electrostatics|/res/msu/ciskepau/electrostatics.page||current|||page|seniso|2001-11-28 12:01:54|2001-12-06 09:40:07|ciskepau@msu|default
static force|paul Ciske|electrostatics|/res/msu/ciskepau/electrostatics1.problem|charges,coulomb|current|||problem|seniso|2001-12-04 14:00:06|2001-12-06 09:49:42|ciskepau@msu|default
electrostatic true false|paul Ciske||/res/msu/ciskepau/electrostatics2.problem|coulomb,s law|current|||problem|seniso|2001-12-04 14:19:51|2001-12-04 14:19:51|ciskepau@msu|default
electric field strength|paul Ciske||/res/msu/ciskepau/electrostatics3.problem||current|||problem|seniso|2001-12-04 14:26:53|2001-12-04 14:26:53|ciskepau@msu|default
force on a proton|paul Ciske||/res/msu/ciskepau/electrostatics4.problem|field,electric|current|||problem|seniso|2001-12-04 14:33:17|2001-12-04 14:33:17|ciskepau@msu|default
force on a charge in a field|paul Ciske||/res/msu/ciskepau/electrostatics5.problem|field,charge,electric|current|||problem|seniso|2001-12-04 14:40:29|2001-12-04 16:45:57|ciskepau@msu|default
force on a charge near a second charge|paul Ciske|electrostatics|/res/msu/ciskepau/electrostatics6.problem|charge,force|current|||problem|seniso|2001-12-04 14:56:16|2001-12-05 10:14:53|ciskepau@msu|default
force between charges|paul Ciske||/res/msu/ciskepau/electrostatics7.problem||current|||problem|seniso|2001-12-04 15:11:29|2001-12-04 15:11:29|ciskepau@msu|default
distance between charges|paul Ciske||/res/msu/ciskepau/electrostatics8.problem|charge,force,charges|current|||problem|seniso|2001-12-05 10:13:59|2001-12-06 09:45:35|ciskepau@msu|default
ohm's law 1|Paul Ciske||/res/msu/ciskepau/dccircuit1.problem|circuit,ohms,resistance|current|||problem|seniso|2001-12-20 17:01:19|2001-12-20 17:01:19|ciskepau@msu|default
series circuit|Paul Ciske||/res/msu/ciskepau/dccircuit2.problem|series,resitance|current|||problem|seniso|2001-12-20 17:08:13|2001-12-20 17:08:13|ciskepau@msu|default
parallel resistance|Paul Ciske||/res/msu/ciskepau/dccircuits3.problem|parallel,resitance|current|||problem|seniso|2001-12-20 17:17:06|2001-12-20 17:17:06|ciskepau@msu|default
circuit diagram 1|paul Ciske||/res/msu/ciskepau/dcdiagram1.gif||current|||gif|notset|2002-01-07 09:57:57|2002-01-07 09:57:57|ciskepau@msu|default
circuit diagram 2|paul Ciske||/res/msu/ciskepau/dcdiagram2.gif||current|||gif|notset|2002-01-07 09:58:48|2002-01-07 09:58:48|ciskepau@msu|default
circuit diagram 3|paul Ciske||/res/msu/ciskepau/dcdiagram3.gif||current|||gif|notset|2002-01-07 09:59:16|2002-01-07 09:59:16|ciskepau@msu|default
circuit diagram 4|paul Ciske||/res/msu/ciskepau/dcdiagram4.gif||current|||gif|notset|2002-01-07 09:59:34|2002-01-07 09:59:34|ciskepau@msu|default
circuit diagram 5|paul Ciske||/res/msu/ciskepau/dcdiagram5.gif||current|||gif|notset|2002-01-07 09:59:57|2002-01-07 09:59:57|ciskepau@msu|default
circuit diagram 6|paul Ciske||/res/msu/ciskepau/dcdiagram6.gif||current|||gif|notset|2002-01-07 10:00:26|2002-01-07 10:00:26|ciskepau@msu|default
Circuit Problem|paul Ciske|DC Circuits|/res/msu/ciskepau/dccircuit4.problem||current|||problem|seniso|2002-01-07 13:15:37|2002-01-08 12:09:28|ciskepau@msu|default
circuit problem 2|paul Ciske|dc circuits|/res/msu/ciskepau/dccircuit5.problem||current|||problem|seniso|2002-01-07 14:13:12|2002-01-07 14:13:12|ciskepau@msu|default
equivielnt resistance 1|paul Ciske||/res/msu/ciskepau/dccircuit6.problem|equivielent,resistance|current|||problem|seniso|2002-01-07 14:20:35|2002-01-07 16:06:09|ciskepau@msu|default
eqivilent resistance 2|paul Ciske||/res/msu/ciskepau/dccircuit7.problem||current|||problem|seniso|2002-01-07 14:31:35|2002-01-07 16:06:46|ciskepau@msu|default
equivilent resistance 3|paul Ciske||/res/msu/ciskepau/dccircuit8.problem||current|||problem|seniso|2002-01-07 14:46:09|2002-01-07 14:46:09|ciskepau@msu|default
equivilent resistance 4|paul Ciske||/res/msu/ciskepau/dccircuit9.problem||current|||problem|seniso|2002-01-07 14:57:08|2002-01-07 14:57:08|ciskepau@msu|default
dc circuit problems|paul Ciske||/res/msu/ciskepau/dccircuits.page||current|||page|seniso|2002-01-07 15:41:37|2002-01-07 17:43:35|ciskepau@msu|default
ciricuit diagram 2|paul Ciske||/res/msu/ciskepau/dcdiagram8.gif||current|||gif|notset|2002-01-07 16:03:44|2002-01-07 16:03:44|ciskepau@msu|default
circuit diagram1|paul Ciske||/res/msu/ciskepau/dcdiagram7.gif||current|||gif|notset|2002-01-07 16:04:10|2002-01-07 16:04:10|ciskepau@msu|default
circuit diagram 9|paul Ciske||/res/msu/ciskepau/dcdiagram9.gif||current|||gif|notset|2002-01-07 16:25:27|2002-01-07 16:25:27|ciskepau@msu|default
circuit diagram 10|paul Ciske||/res/msu/ciskepau/dcdiagram10.gif||current|||gif|notset|2002-01-07 16:26:04|2002-01-07 16:26:04|ciskepau@msu|default
circuit problem 3|paul Ciske||/res/msu/ciskepau/dccircuit10.problem|diagram,circuit,resistors,voltage,ohms,battery,resistance|current|||problem|notset|2002-01-07 17:14:04|2002-01-15 14:45:38|ciskepau@msu|default
circuit true false|paul Ciske||/res/msu/ciskepau/dccircuit11.problem||current|||problem|notset|2002-01-07 17:27:57|2002-01-07 17:27:57|ciskepau@msu|default
ohms law 2|paul Ciske||/res/msu/ciskepau/dccircuit12.problem||current|||problem|notset|2002-01-07 17:39:34|2002-01-07 17:39:34|ciskepau@msu|default
Welcome Page|Kirstin Atlee||/res/msu/atlee/atlee_welcome.html||current|||html|seniso|2001-06-27 11:01:12|2002-08-09 10:50:34|atlee@msu|default
|||/res/msu/bio/demo/radio.problem||current|||problem|seniso|2001-12-18 22:44:51|2001-12-18 23:38:24|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/formula.problem||current|||problem|seniso|2001-12-18 22:46:38|2001-12-21 15:05:10|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/numerical.problem||current|||problem|seniso|2001-12-18 22:56:12|2001-12-18 22:56:12|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/string1.problem||current|||problem|seniso|2001-12-18 23:17:44|2001-12-19 09:44:13|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/string2.problem||current|||problem|seniso|2001-12-18 23:18:03|2001-12-18 23:18:03|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/string3.problem||current|||problem|seniso|2001-12-18 23:18:18|2001-12-18 23:18:18|bio@msu, bio@msu (Michigan State University)|default
||Bio Information|/res/msu/bio/demo/simpleOption.problem||current|||problem|seniso|2001-12-18 23:53:02|2001-12-18 23:53:02|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/conceptOption.problem||current|||problem|seniso|2001-12-19 00:18:15|2001-12-19 00:18:15|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/radio.html||current|||html|seniso|2001-12-19 00:33:05|2001-12-19 00:36:54|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/formula.html||current|||html|seniso|2001-12-19 02:40:51|2001-12-19 02:40:51|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/numerical.html||current|||html|seniso|2001-12-19 02:41:13|2001-12-19 02:41:13|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/option.html||current|||html|seniso|2001-12-19 02:41:44|2001-12-19 02:41:44|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/problems.html||current|||html|seniso|2001-12-19 02:42:05|2001-12-19 02:42:05|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/randomLabel.html||current|||html|seniso|2001-12-19 02:42:27|2001-12-19 02:42:27|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/string.html||current|||html|seniso|2001-12-19 02:42:49|2001-12-19 02:42:49|bio@msu, bio@msu (Michigan State University)|default
||Bio Information|/res/msu/bio/demo/workshopWelcome.html||current|||html|seniso|2001-12-19 02:43:08|2001-12-19 02:43:08|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/constructionSpace.html||current|||html|seniso|2001-12-19 03:18:59|2001-12-19 03:18:59|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/publicSpace.html||current|||html|seniso|2001-12-19 03:19:28|2001-12-19 03:19:28||default
|||/res/msu/bio/demo/demoEnd.html||current|||html|seniso|2001-12-19 03:38:01|2001-12-21 14:52:55|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/roles.html||current|||html|seniso|2001-12-19 03:38:26|2001-12-19 03:38:26|bio@msu, bio@msu (Michigan State University)|default
|Felicia Berryman, MSU HHMI First Year Online Biology||/res/msu/bio/demo/radio.page||current|||page|seniso|2001-12-19 03:41:37|2001-12-19 03:41:37|bio@msu, bio@msu (Michigan State University)|default
|Felicia Berryman, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/demo/demo.sequence||current|||sequence|seniso|2001-12-19 03:53:09|2002-04-24 10:37:02|bio@msu, bio@msu (Michigan State University)|default
|||/res/msu/bio/demo/felicia/upload.html||current|||html|seniso|2001-12-19 11:10:20|2001-12-19 11:15:28|bio@msu, bio@msu (Michigan State University)|default
demo sequence|Felicia Berryman, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/HHMI.sequence||current||This sequence was used as a demo for the material.|sequence|seniso|2001-12-18 13:29:13|2002-06-10 15:00:37|bio@msu, bio@msu (Michigan State University)|default
DNA Zoom|Janet Batzli, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/BatzliFiles/DNA_zoom.html|dna,size,machine|current|||html|seniso|2001-12-19 10:50:46|2001-12-19 10:50:46|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Bioenergetics: Coupled Reactions|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/EnzymeEnergy/EnzymeEnergy.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Chemical Reactions in a Runner's Muscles|MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_005.htm|actin,bioenergetics,contract,contraction,energy,fibers,leg,muscle,myosin,power,reactions,work|current||This page contains an animation which shows how actin and myosin fibers work in a leg muscle.  |htm|seniso|2002-01-16 18:10:13|2002-06-04 12:46:47|bio@msu (Michigan State University)|default
Key Questions|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_006.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Favorable reactions|MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_012.htm|biochemistry,bioenergetics,chemical,sugar,reaction,life,reactions,starch|current||This webpage is part of a unit on bioenergetics:energy.  This page provides some information about the characteristics of biochemical reactions.|htm|seniso|2002-01-16 18:30:13|2002-01-16 18:30:13|bio@msu (Michigan State University)|default
Enthalpy|MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_020.htm|heat,bioenergetics,energy,chemical,repulsion,work,gravity,electrostatic,enthalpy,molecules,states,water,electrons,electrical,direction,reaction,sunlight,negative,processes,entropy,potential,sun,plant,process|current||This page is part of a unit on bioenergetics: energy.  This page provides a discussion on how enthalpy relates to chemical reactions.|htm|seniso|2002-01-17 19:15:49|2002-01-17 19:15:49|bio@msu (Michigan State University)|default
Gibb's free energy|MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_027.htm|free,positive,bioenergetics,energy,negative,reactions,cell,water,gibbs,disorder|current||This page is part of a unit on bioenergetics:energy.  This page provdies a brief discussion of how Gibb's free energy is related to chemical reactions.|htm|seniso|2002-01-17 19:20:30|2002-01-17 19:20:30|bio@msu (Michigan State University)|default
Delta G for ice  water|MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_036.htm|Gibb,s, energy,free,equilibrium,bioenergetics,energy,entropy,liquid,enthalpy,molecules,temperature,ice,states,water|current||This webpage is part of a unit on bioenergetics: energy.  This page provides a brief discussion of the enthalpy and entropy play in melting ice water.  There is also a FLASH animation showing the movement of water molecules in melting ice.|htm|seniso|2002-01-17 19:25:01|2002-01-17 19:25:01|bio@msu (Michigan State University)|default
Delta G of bioreactions|MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_040.htm|co,free,bioenergetics,energy,carbon,chemical,yeast,reactions,ethanol,fermentation,entropy,bioreactions,glucose,process|current||This webpage is part of a unit on bioenergetics: energy.  This page briefly discusses fermentation reactions.|htm|seniso|2002-01-17 19:37:40|2002-01-17 19:37:40|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_042.htm|cells,chemical,co,energy,formula,free,molecule,molecules,negative,positive,process,structural,work|current|||htm|seniso|2002-06-04 12:58:23|2002-06-04 13:03:15|bio@msu (Michigan State University)|default
Looking at Delta G of muscle contraction |MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_046.htm|atp,contraction,energy,molecule,number,process|current||This page is part of a unit on bioenergetics.  This page briefly describes the role of ATP hydrolysis in muscle contraction.|htm|seniso|2002-06-04 13:00:03|2002-06-24 14:27:21|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_046q.htm|acid,amino,atp,block,carbon,charges,components,contraction,dna,negative,nucleotide,proteins,rna,structure|current|||htm|seniso|2002-06-04 13:02:59|2002-06-04 13:02:59|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_047.htm|atp,cellular,chemical,co,energy,entropy,formula,free,glucose,negative,positive,reactions,respiration,states,water|current|||htm|seniso|2002-06-04 13:03:28|2002-06-04 13:03:28|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_048.htm|contraction,energy,free,molecule,molecules,process,states|current|||htm|seniso|2002-06-04 13:03:39|2002-06-04 13:03:39|bio@msu (Michigan State University)|default
Energy in living cells |MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_060.htm|actin,atp,bioen,bioenergetics,cells,energy,hydrolysis,muscle,myosin,process|current||This webpage is part of a unit on bioenergetics: energy.  This page has a shockwave animation looking at the contractions in a runner's leg.|htm|seniso|2002-01-21 10:59:41|2002-06-04 13:05:17|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_065q.htm|atp,electricity,processes,water|current|||htm|seniso|2002-06-04 13:11:52|2002-06-04 13:11:52|bio@msu (Michigan State University)|default
Delta G and coupled reactions|MSU HHMI First Year Online Biology|Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/bioen_070.htm|bioen,bioenergetics,energy,free,reaction,reactions,work|current||This webpage is part of a unit on bioenergetics: coupled reactions.  This page looks at coupled reactions in terms of changes in delta G.|htm|seniso|2002-01-22 15:21:16|2002-06-04 13:12:20|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_071q.htm|acid,amino,energy,free,molecule,molecules,positive,reactions|current|||htm|seniso|2002-06-04 13:13:52|2002-06-04 13:13:52|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_072.htm|acid,amino,atp,cell,cells,energy,entropy,molecule,molecules,reactions,work|current|||htm|seniso|2002-06-04 13:14:07|2002-06-04 13:14:07|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_073.htm|acid,atp,energy,free,process,proteins,reactions,series,work|current|||htm|seniso|2002-06-04 13:14:24|2002-06-04 13:14:24|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_081.htm|acid,amino,atp,balance,cell,cells,conduction,constant,electrical,energy,free,glucose,gradient,impulse,ions,membrane,metabolism,molecule,process,significant,water,work|current|||htm|seniso|2002-06-04 13:14:40|2002-06-04 13:14:40|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_082.htm|atp,cell,components,cycle,ions,molecules,protein,work|current|||htm|seniso|2002-06-04 13:15:00|2002-06-04 13:15:00|bio@msu (Michigan State University)|default
Rate of bioreactions|MSU HHMI First Year Online Biology|Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/bioen_095.htm|free,cells,bioenergetics,energy,reactions,biochemical,speed,glycolysis|current||This webpage is part of a unit on bioenergetics: enzymes.  This page provides a brief discussion of how reactions proceed spontaneously.|htm|seniso|2002-01-22 09:12:38|2002-01-22 09:12:38|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_097.htm|air,atoms,co,diagram,energy,free,glucose,height,independent,negative,net,specific|current|||htm|seniso|2002-06-04 13:16:22|2002-06-04 13:16:22|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_125.htm|air,black,chemical,co,collisions,color,diagram,energy,force,heat,line,molecules,reactions,temperature,temperatures|current|||htm|seniso|2002-06-04 13:16:33|2002-06-04 13:16:33|bio@msu (Michigan State University)|default
Can living things use heat to stimulate reactions? |MSU HHMI First Year Online Biology|Bioenergetics II|/res/msu/bio/EnzymeEnergy/bioen_127.htm|activation,angle,bioen,bioenergetics,biomolecules,diagram,energy,enzyme,enzymes,free,heat,marshmallow,molecule,molecules,proteins,react,reactant,reactants,reaction,reactions,solution,speed,structure,work|current||This webpage is part of a unit on bioenergetics: enzymes.  This page provides a discription of enzymes.  This page also includes a FLASH roll over animation.|htm|seniso|2002-01-22 10:00:06|2002-06-04 13:16:59|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_135.htm|body,carbon,glucose,ice,molecule,molecules,picture,positive,reactions,water|current|||htm|seniso|2002-06-04 15:18:56|2002-06-04 15:18:56|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_136.htm|black,color,diagram,energy,free,glucose,graphs,heat,line,molecule,molecules,protein,reactions|current|||htm|seniso|2002-06-04 15:18:36|2002-06-04 15:18:36|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_145.htm|acids,amino,body,collisions,energy,picture,protein,proteins,water,work|current|||htm|seniso|2002-06-04 15:19:21|2002-06-04 15:19:21|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_150.htm|acids,amino,lines,picture,protein,strain,structural|current|||htm|seniso|2002-06-04 15:23:04|2002-06-04 15:23:04|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_151.htm|acids,amino,molecule,picture,protein,proteins|current|||htm|seniso|2002-06-04 15:23:19|2002-06-04 15:23:19|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_170.htm|acid,acids,activity,amino,atp|current|||htm|seniso|2002-06-04 15:23:28|2002-06-04 15:23:28|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_175.htm|atp,carbon,chain,glucose,molecules,positive,protein,speed,stored,unit,units,work|current|||htm|seniso|2002-06-04 15:23:36|2002-06-04 15:23:36|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_180.htm|atp,body,cell,cells,energy,glucose,reactions,speed|current|||htm|seniso|2002-06-04 15:23:46|2002-06-04 15:23:46|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_182.htm|activity,atp,cell,cells,energy,glucose,molecules|current|||htm|seniso|2002-06-04 15:23:57|2002-06-04 15:23:57|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_184.htm|acid,activity,amino,atp,cell,energy,glucose,molecule|current|||htm|seniso|2002-06-04 15:24:05|2002-06-04 15:24:05|bio@msu (Michigan State University)|default
(Different shapes - different activity)|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_186.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
(Original question)|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_190.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_192.htm|acid,amino,atp,cells,glucose,protein|current|||htm|seniso|2002-06-04 15:19:33|2002-06-04 15:19:33|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bioenergetics-All|/res/msu/bio/EnzymeEnergy/bioen_194.htm|acids,amino,atp,glucose,molecule,protein|current|||htm|seniso|2002-06-04 15:19:09|2002-06-04 15:19:09|bio@msu (Michigan State University)|default
Muscle Contraction: Two Processes |MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_006a.htm|actin,atp,bioen,bioenergetics,contraction,myosin,processes,proteins|current||This webpage is part of a unit on bioenergetics.  This page provides a brief discussion of the role of actin and myosin proteins in muscle contraction.|htm|seniso|2002-01-16 18:15:06|2002-06-04 12:52:39|bio@msu (Michigan State University)|default
How do muscles contract? |MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_006b.htm|air,bioen,bioenergetics,chemical,contract,contraction,glucose,muscle|current||This page is part of a unit on bioenergetics:energy.  This page provides a brief discussion of the physiological consumption of glucose as an example of a chemical reaction. |htm|seniso|2002-01-16 18:19:52|2002-06-04 12:54:05|bio@msu (Michigan State University)|default
The story so far|MSU HHMI First Year Online Biology|Bioenergetics: Energy|/res/msu/bio/EnzymeEnergy/bioen_060b.htm|bioen,bioenergetics,biomolecules,chemical,disorder,energy,enthalpy,entropy,free,heat,hydrolysis,molecules,processes,reaction,reactions|current||This webpage is part of a unit on bioenergetics: energy.  This page provides the overview for the unit.|htm|seniso|2002-01-21 11:03:12|2002-06-04 13:09:52|bio@msu (Michigan State University)|default
Objectives|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/bioen_000.html|bioenergetics,cells,chemical,energy,entropy,picture,proteins,reactions,specific,unit|current||This page is part of a unit on bioenergetics.  This page provides the objectives for the first unit on bioenergetics.|html|seniso|2002-01-09 10:12:11|2002-06-04 12:45:14|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|||/res/msu/bio/bswelcomeLON-CAPA.html|activex,flash,introduction,macromedia,plugin,plugins,shockwave|current|||html|seniso|2001-12-18 16:46:38|2002-05-17 12:41:47|bio@msu, bio@msu (Michigan State University)|default
|Janet Batzli, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/Status_page.html||current|||html|seniso|2001-12-19 11:10:02|2001-12-19 11:10:02|bio@msu, bio@msu (Michigan State University)|default
|Jiatyan Chen, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/delete_after_19dec2001/upload.html||current|||html|seniso|2001-12-19 11:15:01|2001-12-19 11:15:01|bio@msu, bio@msu (Michigan State University)|default
one|Jiatyan Chen, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/delete_after_19dec2001/1.html||current|||html|seniso|2001-12-19 11:21:37|2001-12-19 11:25:39|bio@msu, bio@msu (Michigan State University)|default
|Jiatyan Chen, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/delete_after_19dec2001/2.problem||current|||problem|seniso|2001-12-19 15:07:54|2001-12-19 15:07:54|bio@msu, bio@msu (Michigan State University)|default
|Jiatyan Chen, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/delete_after_19dec2001/3.problem||current|||problem|seniso|2001-12-19 15:08:09|2001-12-19 15:08:09|bio@msu, bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/problems/mm_template1.problem||current|||problem|seniso|2002-01-10 09:27:59|2002-01-10 09:41:58|bio@msu, bio@msu (Michigan State University)|default
Biogeochemical Cycles|Janet Batzli, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/ecol_geochem/ecol_geochem.sequence|Carbon,Nitrogen,Water|current||This instructional module *** which is currently under development*** introduces students to the common matter cycles of carbon, nitrogen and water. Through questions, interactive flash animations students will learn how matter cycles in an ecosystem at both the macro and micro level and be able to trace the path of an atom through a cycle citing all the biological processes involved.|sequence|seniso|2002-01-08 17:26:20|2002-01-16 10:52:47|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/ecol_geochem/enut_060.html|growth,succession,energy,carbon,biotic,cycle,abiotic,grow,co,living,life,nonliving,photosynthesis,plant,respiration|current|||html|seniso|2002-01-09 22:31:43|2002-03-26 17:27:11|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/ecol_geochem/enut_025.html|carbon,cycle,energy|current|||html|seniso|2002-01-14 16:54:15|2002-07-31 10:59:06|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/biorev/welcome.html||current|||html|seniso|2001-12-19 10:44:27|2001-12-19 11:11:05|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Cell Cycle Control CURRENT |/res/msu/bio/cell_div/cycle2/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Cell Cycle Control CURRENT |MSU HHMI First Year Online Biology|Physics|/res/msu/bio/cell_div/cycle2/cycle2.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Preventing hair loss during chemotherapy; Is it possible?|MSU HHMI First Year Online Biology|Cell Cycle Control CURRENT |/res/msu/bio/cell_div/cycle2/celldivide2_900.html|cell,cells,chemotherapy,cycle,dna|current||This page is part of a unit on control of the cell cycle.  This page is about hair loss during chemotherapy.  This page also contains a FLASH animation which shows hair being lost during chemo treatments.|html|seniso|2002-07-23 09:42:44|2002-07-23 09:42:44|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Cell Cycle Process CURRENT|/res/msu/bio/cell_div/cycle1/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Cell Cycle Process CURRENT|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/cell_div/cycle1/cycle1.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/graphics/blood_frog.jpg||current|||jpg|seniso|2002-01-09 10:42:18|2002-01-09 10:56:45|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/graphics/blood_human.jpg||current|||jpg|seniso|2002-01-09 10:42:27|2002-01-09 10:56:30|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/graphics/musclefibers.jpg||current|||jpg|seniso|2002-01-09 15:22:14|2002-01-09 15:22:14|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/graphics/chlorodiag copy.jpg||current|||jpg|seniso|2002-01-09 15:37:13|2002-01-09 15:37:13|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/graphics/normalcells.jpg||current|||jpg|seniso|2002-01-09 16:05:11|2002-01-09 16:05:11|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/graphics/cancercells.jpg||current|||jpg|seniso|2002-01-09 16:05:34|2002-01-09 16:05:34|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/dividing20cell.jpg||current|||jpg|seniso|2002-01-13 13:04:27|2002-01-16 10:56:56|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Jan- RBC|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_010.htm|acids,bilayer,blood,ca,carbon,cell,cells,charged,cl,glucose,lipid,lipids,membrane,membranes,nuclei,organelles,proteins,red,solution,structure|current||This page is part of a unit on cell structure and organelles.  This page provides a description of red blood cells.|htm|seniso|2002-01-09 10:58:22|2002-06-11 09:54:39|bio@msu (Michigan State University)|default
Feb- A Model Animal Cell|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_040.htm|vesicles,organelles,golgi,transport,secretory,chloroplast,cytosol,proteins,cellular,membrane,dna,protein,free,endoplasmic,animal,cells,structure,ribosomes,membranes,reactions,nuclear,reticulum,cell,lipids,lipid,plant,respiration,nucleus|current||This page is part of a unit on cell structure and organelles.  This page provides a discussion of the model animal cell and it's organelles.|htm|seniso|2002-01-09 11:35:43|2002-01-09 11:35:43|bio@msu (Michigan State University)|default
March- Liver Cells|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_020.htm|activity,atp,biochemical,biomolecules,cell,cells,cellular,center,chemical,dna,endoplasmic,energy,er,glucose,lipids,liver,lysosomes,membrane,membranes,mitochondria,molecules,nuclear,nuclelus,nucleus,process,processes,proteins,reflected,respiration,reticulum,ribosomes,rough,structure|current||This page is part of a unit on cell structure and organelles.  This page provides a brief discussion of hyperkinetic cells.|htm|seniso|2002-01-09 12:00:44|2002-06-11 10:09:59|bio@msu (Michigan State University)|default
April- Trachea Epithelium|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_032.htm|myosin,organelles,cells,cilia,structure,microtubules,eukaryotic,cell,tubulin,cilium,epithelia,trachea,epithelial,membrane|current||This page is part of a unit on cell structure and organelles.  This page provides a discussion on tracheal epithelium.|htm|seniso|2002-01-09 15:06:48|2002-01-13 12:42:46|bio@msu (Michigan State University)|default
May- Muscle Cells|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_030.htm|actin,myosin,organelles,cells,myofibril,structure,fibers,striated,filaments,organelle,microscope,cell,sarcomere,micrograph,fiber,muscle|current||This page is part of a unit on cell structure and organelles.  This page provides a brief discussion of muscle cells and fibers.|htm|seniso|2002-01-09 15:26:25|2002-01-13 12:46:49|bio@msu (Michigan State University)|default
June- Neuron|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_050.htm|cytoskeletal,organelles,cells,structure,filaments,axons,neuron,organelle,nucleolus,microtubules,nerve,cell,network,dendrites,cytoskeleton,neurons,electrical,nucleus|current||This page is part of a unit on cell structure and organelles.  This page provides a brief discussion of neurons.|htm|seniso|2002-01-09 15:31:09|2002-01-13 12:48:07|bio@msu (Michigan State University)|default
July- A Model Plant Cell|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_035.htm|organelles,vacuole,endoplasmic,cells,structure,golgi,fibers,organelle,nucleolus,chloroplasts,cellulose,photosynthesis,storage,reticulum,plasma,cell,polysaccharide,mitochondria,water,membrane,nucleus|current||This page is part of a unit on cell structure and organelles.  This page the presents a model plant cell.|htm|seniso|2002-01-09 15:39:20|2002-02-10 15:53:23|bio@msu (Michigan State University)|default
Aug- Plant Cells|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_037.htm|organelles,wall,stains,cells,structure,epidermal,dicot,mesophyll,cuticle,chloroplasts,stomates,photosynthesis,cell,parenchyma,plant,nuclei,membrane|current||This page is part of a unit on cell structure and organelles.  This page provides a brief discussion of the interactions between groups of plant cells.|htm|seniso|2002-01-09 15:45:56|2002-01-13 12:51:21|bio@msu (Michigan State University)|default
Sep- Protists|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_045.htm|organelles,vacuole,paramecia,cells,lysosome,cell,protists,epithelial,cilia,amoeba,paramecium,vesicle,eukaryotes,ciliates,eukaryotic|current||This page is part of a unit on cell structure and organelles.  This page provides a brief discussion of protists.|htm|seniso|2002-01-09 15:56:47|2002-01-09 15:56:47|bio@msu (Michigan State University)|default
Oct- Dividing Cells |MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_055.htm|actin,cytoskeletal,metaphase,myosin,organelles,fibers,filaments,mitosis,cycle,organelle,microtubules,cell,divide,cytoskeleton,dividing|current||This page is part of a unit on cell structure and organelles.  This page provides a brief discription of the process of mitosis.|htm|seniso|2002-01-09 16:01:46|2002-02-10 15:54:57|bio@msu (Michigan State University)|default
Nov- Cancer Cells|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_065.htm|morphology,growth,tumor,cells,metastatic,structure,cancerous,cell,dedifferentiated,cancer|current||This page is part of a unit on cell structure and organelles.  This page provides a brief discription of cancerous cells.|htm|seniso|2002-01-09 16:07:20|2002-01-09 16:07:20|bio@msu (Michigan State University)|default
Dec- Two Cells: NMJ|MSU HHMI First Year Online Biology|Cell Structure|/res/msu/bio/cell_structure/cells_052.htm|vesicles,neuron,picture,neuromuscular,membrane,muscle,actin,myosin,cells,structure,nerve,cell,nucleus|current||This page is part of a unit on cell structure and organelles.  This page is provides a brief discussion of the neuromuscular junction.|htm|seniso|2002-01-09 16:10:51|2002-01-09 16:10:51|bio@msu (Michigan State University)|default
January's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_011.problem|organelles,cytosol,molecules,proteins,membrane,structure,organelle,cell|current||This page is part of a unit on cell structure and organelles.  This is mix and match problem that covers the cytoplasm and plasma membrane.|problem|seniso|2002-01-09 11:23:09|2002-01-09 11:29:29|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
February's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_041.problem|organelles,structure,organelle,cell,lipids,ribosome,lipid|current||This page is part of a unit on cell structure and organelles.  This is a mix and match homework question that covers the model animal cell and it's organelles.|problem|seniso|2002-01-09 11:52:38|2002-01-09 11:52:38|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
March's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_021.problem|organelle,hyperkinetic,number,organelles,liver,protein,cells,structure,membranes,cell,lipids,ribosome,nucleus|current||This page is part of a unit on cell structure and organelles.  This is a true and false homework page on hyperkinetic cells.|problem|seniso|2002-01-09 12:12:19|2002-01-09 12:12:19|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
April's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_033.problem|organelle,organelles,structure,microtubules,cell,tubulin,trachea,epithelial|current||This page is part of a unit on cell structure and organelles.  This is a true and false question page conerning trachea epithelial cells.|problem|seniso|2002-01-09 16:24:03|2002-01-09 16:24:03|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
May's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_031.problem|muscle,actin,cells,cell,microtubules,structure|current||This page is part of a unit on cell structure and organelles.  This is a mix and match problem page concerning dynein and myosin motors in cells.|problem|seniso|2002-01-09 16:35:19|2002-01-09 16:35:19|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
June's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_052.problem|actin,structure,filaments,microtubles,axons,processes,microtubules,nerve,dendrites,cytoskeleton|current||This page is part of a unit on cell structure and organelles.  This is a multiple choice homework page about nerve cells.|problem|seniso|2002-01-11 13:14:24|2002-01-11 13:19:43|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
July's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_036.problem|organelle,organelles,endoplasmic,energy,golgi,light,chloroplasts,reticulum,eukaryotic,lipids,plant,mitochondria,water,bodies|current||This page is part of a unit on cell structure and organelles.  This is a mix and match homework page on a model plant cell.|problem|seniso|2002-01-11 15:05:03|2002-01-11 15:14:32|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
August's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_038.problem|structure,processes,organelle,nuclei|current||This page is part of a unit on cell structure and organelles.  This is a mix and match homework page on the interactions between plant cells.|problem|seniso|2002-01-11 15:20:32|2002-01-15 16:41:21|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/leaf_epidermis.jpg||current|||jpg|seniso|2002-01-11 15:29:39|2002-01-11 15:29:39|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
October's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_056.problem|microtubules,actin,myosin,cells,structure,fibers,filaments,cell,cytoplasm|current||This page is part of a unit on cell structure and organelles.  This is a mix and match problem page on actin and myosin fibers.|problem|seniso|2002-01-11 15:36:39|2002-01-11 16:11:45|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
November's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_066.problem|cells,structure,cell,cancer|current||This page is part of a unit on cell structure and organelles.  This is a mix and match problem page concerning cancerous cells.|problem|seniso|2002-01-11 16:00:18|2002-01-11 16:05:56|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
December's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_053.problem|organelle,cytoskeletal,components,organelles,cells,structure,junction,cell,neuromuscular,cellular|current||This page is part of a unit on cell structure and organelles.  This is a mix and match problem page concerning the neuromuscular junction.|problem|seniso|2002-01-11 16:20:38|2002-01-11 16:20:38|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
September's Quiz|MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/problems/cells_043.problem|paramecium,cells,structure,microtubules,cell,locomotion,proteins,amoeba|current||This page is part of a unit on cell structure and organelles.  This is a mix and match problem page concerning parameciums and amoebas.|problem|seniso|2002-01-11 16:31:27|2002-02-13 15:55:31|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Cell Structure|Biology Account, MSU HHMI First Year Online Biology|Bio Information, Cell Structure|/res/msu/bio/cell_structure/cells_070.htm|cells,lysosome,extracellular,histamine,plasma,cell,macrophages,cellmacrophages,membrane,immune|current|||htm|seniso|2001-08-01 13:38:35|2001-08-01 13:38:35|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
BS 111 Spring Semester Sequence|MSU HHMI First Year Online Biology|Biology|/res/msu/bio/BS111SS02.sequence||current||Sequence for first semester freshman-level college biology course|sequence|seniso|2002-01-04 12:57:03|2002-04-22 19:58:01|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Genetics: Mendel|/res/msu/bio/genetics/mendelian/graphics/k5751-1x.jpg||current|||jpg|seniso|2001-11-26 13:11:39|2001-11-26 13:11:39|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Mendel|/res/msu/bio/genetics/mendelian/graphics/prophase.jpg||current|||jpg|seniso|2001-11-28 13:12:06|2001-11-28 13:12:06|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Mendel|/res/msu/bio/genetics/mendelian/graphics/anaphase.jpg||current|||jpg|seniso|2001-11-28 13:12:14|2001-11-28 13:12:14|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Mendel|/res/msu/bio/genetics/mendelian/graphics/metaphase.jpg||current|||jpg|seniso|2001-11-28 13:12:21|2001-11-28 13:12:21|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Mendel's Story: The Basic Questions of Genetics |MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_026.htm|alleles,mendel,mendels,genetics,inheritance,genetic,gregor,inherited|current||This webpage is part of a unit on Mendelian genetics.  This page defines the study of genetics and provides the objectives for the unit.|htm|seniso|2001-08-27 18:07:39|2001-11-26 14:03:22|bio@msu (Michigan State University)|default
Pangenesis: An early idea |MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_030.htm|genetics,inheritance,pangenesis,darwin,hereditary|current||This webpage is part of a unit on Mendelian genetics.  This page discusses Darwin's version of inheritance and the notion of pangenesis.  There is also a graphic that shows an experiment used to provide evidence against pangenesis.|htm|seniso|2001-08-27 18:11:31|2001-11-26 14:02:19|bio@msu (Michigan State University)|default
Gregor Mendel: The man, the monk, the myth, his peas. |MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_040.htm|pisum,assortment,mendel,independent,pea,sativum,genetics,inheritance,genetic,gregor|current||This webpage is part of a unit on Mendelian genetics.  This page provides a breif history of Gregor Mendel and his work with pea plants. |htm|seniso|2001-08-27 18:16:38|2001-11-26 14:22:18|bio@msu (Michigan State University)|default
Genetics: Mendel's peas|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_051.htm|mendel,inheritence,genetics,inheritance,genetic,gregor|current||This webpage is part of a unit on Mendelian genetics.  This page provides a continued discussion of Gregor Mendel's work with pea plants and the traits that he studied. |htm|seniso|2001-08-27 18:21:50|2001-11-26 14:27:11|bio@msu (Michigan State University)|default
Mendel's Peas: Dominant vs recessive |MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_052.htm|hybrid,recessive,mendel,hybridization,dominant,genetics,genetic,filial|current||This webpage is part of a unit on Mendelian genetics.  This page describes the difference between dominant and recessive traits as described by Mendel, and the experiments that he performed to make the determination.|htm|seniso|2001-08-27 18:25:53|2001-11-30 14:10:55|bio@msu (Michigan State University)|default
Mendel's explanation: Three new ideas|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_071.htm|mendel,inheritence,genetics,inheritance,gene,genetic,gregor|current||This webpage is part of a unit on Mendelian genetics.  This page discusses how Gregor Mendel explained the results from his pea experiments. There is also a FLASH roll over animation describing the three new ideas that he proposed in his explaintion. |htm|seniso|2001-08-27 18:43:06|2001-11-28 10:57:44|bio@msu (Michigan State University)|default
Mendel Updated: Diploidy|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_072.htm|mendel,haploid,diploid,diploidy,homologs,chromosome,genetic,gregor,homologous|current||This webpage is part of a unit on Mendelian genetics.  This page provides a simple explanation of the molecular biology behind Mendelian genetics.  Included is a description of chromosomes and homologs.  There is also a QUICKTIME movie showing a zoom in animation from a pea plant to a chromosome.|htm|seniso|2001-08-27 18:49:42|2001-11-28 11:02:19|bio@msu (Michigan State University)|default
Mendel's Story: Terminology of genetics|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_055.htm|alleles,mendel,loci,mendels,allele,pea,genetics,inheritance,gene,chromosome,genetic,gregor|current||This webpage is part of a unit on Mendelian genetics.  This page provides an explanation of homologs and alleles.  There is also a SHOCKWAVE animation that explains these terms graphically.|htm|seniso|2001-08-27 18:55:16|2001-11-28 11:07:13|bio@msu (Michigan State University)|default
Dominance: Mendel's Second New Idea|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_076.htm|mendel,inheritence,genetics,inheritance,genetic,gregor|current||This webpage is part of a unit on Mendelian genetics.  This page explains Mendel's second idea in more detail than the information presented in previous pages.   
  
 
 |htm|seniso|2001-08-27 19:02:45|2001-11-28 11:08:45|bio@msu (Michigan State University)|default
Meiosis: Formation of haploid gametes |MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_080.htm|chromatids,chromosome,dyad,gregor,haploid,inheritance,inheritence,meiosis,mendel,sister|current||This webpage is part of a unit on Mendelian genetics.  This page provides a  explanation of meiosis, sister chromatids, and dyads.   |htm|seniso|2001-08-27 19:09:06|2002-05-22 12:33:34|bio@msu (Michigan State University)|default
Overview of meiosis|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_100.htm|mendel,haploid,diploid,genetics,meiosis,gene,genetic,gregor|current||This webpage is part of a unit on Mendelian genetics.  This page provides a SHOCKWAVE animation showing the process of meiosis.|htm|seniso|2001-08-27 19:13:14|2001-11-28 11:12:30|bio@msu (Michigan State University)|default
Phases of meiosis|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_111.htm|anaphase,chromosome,chromosomes,gregor,haploid,homologs,inheritance,meiosis,mendel,metaphase,phase,prophase,telophase|current||This webpage is part of a unit on Mendelian genetics.  This page provides three SHOCKWAVE animations showing the four phases of meiosis. There is also a link to a pop-up window that contains a non animated version of this page (genen_112.htm).|htm|seniso|2001-08-27 19:25:02|2002-05-22 12:37:30|bio@msu (Michigan State University)|default
Meiosis I vs II|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_140.htm|chromosome,gregor,meiosis,mendel,segregation|current||This webpage is part of a unit on Mendelian genetics.  This page joins the discussion of meiosis and Mendel's Law of Segregation.  There is also a SHOCKWAVE animation showing meiosis I and II.|htm|seniso|2001-08-27 19:27:29|2002-05-15 14:36:04|bio@msu (Michigan State University)|default
Meiosis & Punnett squares|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_150.htm|allele,genetic,genetics,gregor,mendel,punnett,square|current||This webpage is part of a unit on Mendelian genetics.  This page provides an introduction to using Punnette squares.  There is also a SHOCKWAVE animation showing an animated Punnette square.|htm|seniso|2001-08-27 19:30:38|2002-05-22 12:38:08|bio@msu (Michigan State University)|default
Test crosses|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_280.htm|testcross,genetics,mendel,square,genetic,gregor,cross,punnette,test|current||This webpage is part of a unit on Mendelian genetics.  This page provides a brief discussion of test crosses.  There is also a SHOCKWAVE animation showing an animated test cross.|htm|seniso|2001-08-27 19:33:22|2001-11-28 13:29:14|bio@msu (Michigan State University)|default
Mendel's Explanation: Putting the pieces together|MSU HHMI First Year Online Biology|Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_282.htm|genetics,mendel,meiosis,genetic,gregor|current||This webpage is part of a unit on Mendelian genetics.  This page provides a brief summary of the unit. |htm|seniso|2001-08-27 19:37:40|2001-11-28 13:31:09|bio@msu (Michigan State University)|default
Mendel's Terms for Genrations|MSU HHMI First Year Online Biology|Bio Information, Genetics: Mendel|/res/msu/bio/genetics/mendelian/problems/Mendel_1.problem|generation,genetic,mendel,mendels,offspring,parental|current||This webpage is part of a unit on Mendelian genetics.  This is a mix and match question page that checks vocabulary knowledge of the abbreviations P, F1, and F2.|problem|seniso|2001-11-30 14:26:29|2002-08-14 08:42:10|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Mendel's Story: Genetics |MSU HHMI First Year Online Biology|Bio Information, Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_015.htm|mendels,mendel,genetics,inheritance,genetic|current||This webpage is part of a unit on Mendelian genetics.  This page provides an introduction to the unit.|htm|seniso|2001-08-27 18:03:13|2001-11-30 14:27:59|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Meiosis: The Phases Non Animated|MSU HHMI First Year Online Biology|Bio Information, Genetics: Mendel|/res/msu/bio/genetics/mendelian/genen_112.htm|metaphase,prophase,phases,chromosomes,mendelian,mitosis,anaphase,chromosome,centromeres|current||This page is the non animated version of page (genen_111.htm). This page is contained withih a pop-up window within (genen_111.htm). |htm|seniso|2001-11-28 13:14:28|2002-05-09 11:30:14|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Genetics: Non-Mendelian|/res/msu/bio/genetics/nonmendel/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Genetics: Non-Mendelian|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/genetics/nonmendel/nonmendel.sequence||current|||sequence|seniso|2002-06-10 14:24:43|2002-06-10 14:24:43|bio@msu (Michigan State University)|default
Tortoiseshell cats |MSU HHMI First Year Online Biology|Genetics: Non-Mendelian|/res/msu/bio/genetics/nonmendel/genen_450.htm|cat,mendelian,genetics,inherittance,gene,tabby,inherit,coat,tortoiseshell|current||This page is part of a unit on non-Mendelian genetic inheritance.  This unit deals with modes of inheritance for cat coat color genes. This page provides a description of Tortoiseshell coat color.|htm|seniso|2001-11-28 13:55:59|2001-11-28 14:07:02|bio@msu (Michigan State University)|default
Spotting patterns|MSU HHMI First Year Online Biology|Genetics: Non-Mendelian|/res/msu/bio/genetics/nonmendel/genen_511.htm|cat,mendelian,genetics,inheritance,color,coat|current||This page is part of a unit on non-Mendelian genetic inheritance.  This unit deals with modes of inheritance for cat coat color genes. This page provides a description of different spotting patterns of cat coat color.|htm|seniso|2001-11-28 13:58:18|2001-11-28 14:05:24|bio@msu (Michigan State University)|default
Cat Cruising|MSU HHMI First Year Online Biology|Genetics: Non-Mendelian|/res/msu/bio/genetics/nonmendel/genen_560.htm|cat,mendelian,genetics,inheritance,mendel,gene,color,cats,coat|current||This page is part of a unit on non-Mendelian genetic inheritance.  This unit deals with modes of inheritance for cat coat color genes. This page provides the conclusion to the unit by summarizing the main points from the unit.|htm|seniso|2001-11-28 13:59:41|2001-11-28 14:03:36|bio@msu (Michigan State University)|default
Genetics: Non-Mendelian|MSU HHMI First Year Online Biology|Bio Information, Genetics: Non-Mendelian|/res/msu/bio/genetics/nonmendel/genen_440.htm|allele,cat,coat,color,genes,genetics,inheritance,mendelian,nonmendelian,tan|current||This page is part of a unit on non-Mendelian genetic inheritance.  This unit deals with modes of inheritance for cat coat color genes. This page provides the introduction to the unit.|htm|seniso|2001-11-28 13:51:58|2002-05-15 14:34:39|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/graphics/meiosis_sec4.jpg||current|||jpg|seniso|2001-10-01 12:26:06|2001-10-01 12:26:06|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/graphics/chromosome_pair1.jpg||current|||jpg|seniso|2001-10-03 11:41:41|2001-10-03 11:41:41|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/graphics/chromosome_pair2.jpg||current|||jpg|seniso|2001-10-03 11:42:00|2001-10-03 11:42:00|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/graphics/chromosome_pair3.jpg||current|||jpg|seniso|2001-10-03 11:42:20|2001-10-03 11:42:20|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/graphics/chromosome_pair4.jpg||current|||jpg|seniso|2001-10-03 11:42:44|2001-10-03 11:42:44|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/graphics/meiosisanimation.swf||current|||swf|seniso|2001-11-27 10:09:26|2001-11-27 10:09:26|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Genetics: 2 Genes and Beyond!|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/genetics/prob_recomb/prob_recomb.sequence||current|||sequence|seniso|2001-11-30 15:20:20|2002-10-03 18:23:34|bio@msu (Michigan State University)|default
Punnett squares and two genes |MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_160.htm|genetic,genetics,meiosis,punnett,square|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page contains an animated Punnett square which presents the F1 generation from a cross of two genes from pea plants. |htm|seniso|2001-09-24 19:31:05|2002-06-28 10:48:07|bio@msu (Michigan State University)|default
Independent Assortment of Genes|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_190.htm|alleles,assortment,gametes,independent,mendel,phenotype,punnett|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page contains a Shockwave animated Punnett square demonstrating Mendel's law of independent assortment. |htm|seniso|2001-09-24 20:35:55|2002-10-11 12:07:41|bio@msu (Michigan State University)|default
Dihybrid Cross Phenotypic Ratios|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_231.htm|dihybrid,genetics,genotypes,mendel,phenotype,punnett,ratio|current|||||1969-12-31 19:00:00|1969-12-31 19:00:00||
HW6|P.K.Wong|Application of Derivatives|/res/msu/apcalc/homework/hw06.sequence||current|||sequence|notset|2002-10-09 01:45:16|2002-10-09 01:45:16|apcalc@msu|default
Genetics: Meiosis and Dihybrid crosses|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_235.htm|dihybrid,meiosis,maternal,meiotic,dominant,chromosome,dyad,allele,parental,recessive|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page discusses the meiotic division of a two gene cell.    |htm|seniso|2001-09-24 19:44:20|2001-11-30 15:05:26|bio@msu (Michigan State University)|default
Genetics: An Introduction to Probability|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_330.htm|frequencies,genetics,ratios,rule,probability,addition,independent,multiplication,phenotypic,rules,alternative|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page provides a detailed discussion of probability and presents the rules of addition and multiplication. |htm|seniso|2001-09-24 19:50:11|2001-11-30 15:07:12|bio@msu (Michigan State University)|default
Genetics: Probability in Monohybrid Crosses|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_331.htm|monohybrid,alleles,independent,genetics,punnett,square,genetic,cross,crosses|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page determines the probability of each cell occuring in a monohybrid cross. |htm|seniso|2001-09-24 19:54:02|2001-11-30 15:21:14|bio@msu (Michigan State University)|default
Genetics: Summary: The rule of multiplication|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_337.htm|dihybrid,alleles,genetics,meiosis,probability,chromosome,punnett,square,multiplication,genotype|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page determines the probability of each combination of alleles occuring in a dihybrid cross.  This page also explains in minor detail the rule of multiplication.|htm|seniso|2001-09-24 19:57:10|2001-11-30 15:23:48|bio@msu (Michigan State University)|default
Genetics: Probability: The rule of addition|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_340.htm|phenotype,addition,independent,genetics,probability,punnett,square,genotype|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page provides a detailed description of the rule of addition.|htm|seniso|2001-09-24 20:00:32|2001-11-30 15:25:39|bio@msu (Michigan State University)|default
Genetics: Predicting frequencies in trihybrid crosses|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_360.htm|cross,crosses,genetics,genotype,independent,monohybrid,phenotypes,probabiity,probability,trihybrid|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page provides a description of how to predict frequencies in trihybrid crosses.|htm|seniso|2001-09-25 10:52:04|2002-06-12 09:25:31|bio@msu (Michigan State University)|default
Genetics: Trihybrid crosses|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_370.htm|crosses,genetics,independent,phenotype,probability,trihybrid|current||This page is part of a unit on the genetics involving two or more genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page continues the discussion about trihyrbid crosses.|htm|seniso|2001-09-25 10:56:27|2002-06-12 09:25:42|bio@msu (Michigan State University)|default
Inheritance of characters on the same chromosome |MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_560.htm|chromosome,crosses,gene,genetics,inheritance,monohybrid,trait,traits,transmission,trihybrid|current||This page is part of a unit on the genetics involving two or more genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page provides a brief discussion of inheritance of genes on the same chromosome.|htm|seniso|2001-09-25 11:02:02|2002-06-28 10:48:52|bio@msu (Michigan State University)|default
Inheritance of linked genes |MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_580.htm|chromosome,genetics,independent,inheritance,meiosis,mendels,ratio,ratios|current||This page is part of a unit on the genetics involving two or more genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page provides a brief discussion of inheritance of linked genes.  This page also contains a SHOCKWAVE animation showing how linked genes are usually transmitted together during meiosis.|htm|seniso|2001-09-25 11:05:46|2002-06-28 10:49:14|bio@msu (Michigan State University)|default
Genetics: Crossing Over|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_590.htm|alleles,chromatids,chromosomal,chromosome,crossing,gene,genetics,homologs,maternal,nonsister,over,paternal,sister|current||This page is part of a unit on the genetics involving two or more genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page contains a brief discussion of crossing over of non-sister chromatids.  This page also contains a shockwave animation that demonstrates this process.|htm|seniso|2001-09-25 11:09:41|2002-06-12 09:28:53|bio@msu (Michigan State University)|default
Genetics: Synapsis|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_600.htm|genetic,genetics,meiosis,synapsis,tetrad,tetrads|current||This page is part of a unit on the genetics involving two or more genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page continues a discussion of the recombination of non sister chromatids.|htm|seniso|2001-09-25 11:13:21|2002-06-12 09:30:08|bio@msu (Michigan State University)|default
Genetics: Recombinant Gametes|MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_610.htm|alleles,chromatids,genetic,genetics,maternal,meiosis,nonparental,nonsister,paternal,recombination|current||This page is part of a unit on the genetics involving two or more genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page continues a discussion about the recombination of non-sister chromatids.|htm|seniso|2001-09-25 11:18:30|2002-06-12 09:31:08|bio@msu (Michigan State University)|default
One recombination event |MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_612.htm|genetics,nonparental,nonrecombinant,parental,recombinant,recombination|current||This page is part of a unit on the genetics involving two or more genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page contains a graphic that shows the parental (non-recombinant) and the non-parental (recombinant) gametes from one recombination event.|htm|seniso|2001-09-25 11:20:53|2002-06-28 10:50:11|bio@msu (Michigan State University)|default
Two Genes and Beyond - a summary |MSU HHMI First Year Online Biology|Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_650.htm|chromatids,chromosome,crosses,crossover,dihybrid,genes,genetics,genotypic,independent,inheritance,meiosis,monohybrid,nonparental,nonsister,phenotypic,probability,punnett,squares,summary,trait,traits|current||This page is part of a unit on the genetics involving two or more genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page provides a comprehensive summary for the unit.|htm|seniso|2001-09-25 11:24:11|2002-06-28 10:50:30|bio@msu (Michigan State University)|default
Genetics: Two Genes and Beyond!|MSU HHMI First Year Online Biology|Bio Information, Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/genen_159.htm|dihybrid,alleles,gamete,mendel,phenotype,dominant,recessive,inheritance,meiosis,chromosome,phenotypic|current||This page is part of a unit on the genetics involving two genes.  This unit is one of several designed to introduce genetic concepts to introductory biology students.  This page provides an introduction to the unit by presenting questions, which the student will be able to answer by the end of the unit.  |htm|seniso|2001-09-24 19:23:24|2001-11-30 14:57:06|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Meiosis Animation|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: 2 Genes and Beyond!|/res/msu/bio/genetics/prob_recomb/meiosisanimation.swf|meiosis,animation|current|||swf|seniso|2001-10-05 14:10:06|2002-06-12 09:34:12|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/Xchromosome.gif||current|||gif|seniso|2001-11-27 13:57:25|2001-11-27 13:57:25|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/gender_sep.gif||current|||gif|seniso|2001-11-27 13:57:37|2001-11-27 13:57:37|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_A.gif||current|||gif|seniso|2001-11-27 13:57:46|2001-11-27 13:57:46|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_A2.gif||current|||gif|seniso|2001-11-27 13:57:54|2001-11-27 13:57:54|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_A_sm.gif||current|||gif|seniso|2001-11-27 13:58:00|2001-11-27 13:58:00|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_J.gif||current|||gif|seniso|2001-11-27 13:58:09|2002-06-11 12:55:32|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_J_sm.gif||current|||gif|seniso|2001-11-27 13:58:18|2001-11-27 13:58:18|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_mar.gif||current|||gif|seniso|2001-11-27 13:58:25|2001-11-27 13:58:25|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_mar_sm.gif||current|||gif|seniso|2001-11-27 13:58:32|2001-11-27 13:58:32|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_vic.gif||current|||gif|seniso|2001-11-27 13:58:38|2001-11-27 13:58:38|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_vic_sm.gif||current|||gif|seniso|2001-11-27 13:58:43|2001-11-27 13:58:43|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_xen.gif||current|||gif|seniso|2001-11-27 13:58:50|2001-11-27 13:58:50|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/graphics/pedigree_xen_sm.gif||current|||gif|seniso|2001-11-27 13:58:56|2001-11-27 13:58:56|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Genetics: Muscular dystrophy|MSU HHMI First Year Online Biology|Biology: Human Genetics|/res/msu/bio/genetics/mus_dystrophy/mus_dystrophy.sequence||current||This is a module on human genetics.  This unit presents five human genetic diseases within the context of a hypothetical genetic counseling session.|sequence|seniso|2001-11-28 12:55:45|2002-06-11 12:44:12|bio@msu (Michigan State University)|default
Sex-linked Traits|MSU HHMI First Year Online Biology|Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_700.htm|chromosome,duchennes,dystrophy,gamete,gene,genetic,genetics,inheritance,linked,muscular,sex,sexlinked,xchromsome|current||This page is part of a unit on human genetics.  This page provides a brief discussion of how sex-linked traits are inherited.|htm|seniso|2001-11-28 09:42:40|2002-06-11 12:27:07|bio@msu (Michigan State University)|default
What do sex chromosomes code for? |MSU HHMI First Year Online Biology|Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_705.htm|carrier,chromosome,disease,duchennes,dystrophy,gene,genetic,genetics,hemophilia,muscular|current||This page is part of a unit on human genetics.  This page provides a discussion of the differences between the X and Y chromosomes.|htm|seniso|2001-11-28 09:48:15|2002-06-11 12:27:32|bio@msu (Michigan State University)|default
Duchennes Muscular Dystrophy|MSU HHMI First Year Online Biology|Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_432.htm|carrier,disease,dmd,duchennes,dystrophin,dystrophy,gene,genetics,muscle,muscular|current||This page is part of a unit on human genetics.  This page provides a discussion of the physiological basis of Duchennes muscular dystrophy.|htm|seniso|2001-11-28 10:00:12|2002-06-11 12:26:56|bio@msu (Michigan State University)|default
Back to Mendel's peas |MSU HHMI First Year Online Biology|Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_716.htm|allele,alleles,color,gene,phenotype,pigment,pigments,protein,proteins,work|current||This page is part of a unit on muscualr dystrophy and other genetic diseases.|htm|seniso|2002-05-15 14:12:33|2002-06-11 12:30:27|bio@msu (Michigan State University)|default
The Genetics of Muscular Dystrophy|MSU HHMI First Year Online Biology|Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_720.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Puzzles of Inheritance in People|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_395.htm|clinic,disease,diseases,duchennes,dystrophy,genetic,geneticist,genetics,girdle,inheritance,lgmd,limb,muscle,muscular|current||This page is part of a unit on human genetics.  This page provides the introduction to the unit by presenting a hypothetical story of two individuals who have received genetic counseling.|htm|seniso|2001-11-28 09:29:27|2002-05-15 14:09:28|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Human Pedigrees|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_424.htm|disease,genetic,genetics,human,inheritance,pedigree,pedigrees|current||This page is part of a unit on human genetics.  This page provides the conclusion to the unit by presenting hypothetical pedigrees of the five genetic diseases covered in the previous pages of the unit.|htm|seniso|1969-12-31 19:32:49|2002-10-14 11:41:45|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
pop-up|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_J.htm||current||This page is used as a pop-up window.|htm|seniso|2001-11-28 10:25:53|2002-05-15 14:26:56|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
pop-up|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_A.htm||current||This page is used as a pop-up window.|htm|seniso|2001-11-28 10:26:02|2002-10-14 11:33:52|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
pop-up|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_mar.htm||current||This page is used as a pop-up window.|htm|seniso|2001-11-28 10:26:24|2002-05-15 14:30:48|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
pop-up|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_vic.htm||current||This page is used as a pop-up window.|htm|seniso|2001-11-28 10:26:59|2002-05-15 14:28:19|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
pop-up|MSU HHMI First Year Online Biology|Bio Information, Genetics: Muscular dystrophy|/res/msu/bio/genetics/mus_dystrophy/genen_xen.htm||current||This page is used as a pop-up window.|htm|seniso|2001-11-28 10:27:31|2002-05-15 14:28:50|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
LBS 145, SS02 Top-level sequence|Felicia Berryman, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/LBS145SS02.sequence||current||Second semester freshman biology course|sequence|seniso|2002-01-07 10:06:57|2002-03-30 12:23:34|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
The Krebs Cycle|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/krebs/krebs.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Overview|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/index.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step A|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/stepa.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 1|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step1.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 2|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step2.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 3|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step3.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 4|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step4.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 5|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step5.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 6|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step6.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 7|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step7.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 8|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step8.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Step 9|MSU HHMI First Year Online Biology|The Krebs Cycle|/res/msu/bio/krebs/step9.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Carbohydrates, Introduction and Overview|MSU HHMI First Year Online Biology|Large Biomolecules - ALL|/res/msu/bio/lg_biomols/carbo/carb100.html|carbohydrates,biomolecule,carbohydrate,starch|current||This webpage contains the introduction and overview of a unit on carbohydrates.  There ia also a rollover thats displays information on four different carbohydrates.|html|seniso|2001-08-14 10:59:09|2002-01-09 04:58:30|bio@msu (Michigan State University)|default
CArbohydrates, Composition and Subunits |MSU HHMI First Year Online Biology|Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/carb200.html|fructose,co,galactose,mannose,subunits,carbon,sugars,carbohydrates,hydrate,oh,sugar,ribulose,carbo,sixcarbon,glucose,units,carbohydrate|current||This page is part of a unit on carbohydrates. This webpage contains information on the sub-components of carbohydrates.  There are also two CHIME animations showing the structures of glucose and fructose. |html|seniso|2001-08-14 11:11:56|2001-12-19 11:52:14|bio@msu (Michigan State University)|default
Carbohydrates, Bonds and Polymerization of Subunits|MSU HHMI First Year Online Biology|Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/carb300.html|monomer,polymerization,mono,subunits,sugars,carbohydrates,polysaccharides,sugar,biomolecule,disaccharide,monosaccharide,fructose,saccharide,units,carbohydrate|current||This is another page within a unit on large biomolecules-carbohydrates. This webpage contains information on the bonding of sugars to form polysaccharides.|html|seniso|2001-08-14 11:15:35|2001-12-06 12:53:24|bio@msu (Michigan State University)|default
Carbohydrates, Configuration and Function|MSU HHMI First Year Online Biology|Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/carb400.html|polymer,configuration,molecule,cellulose,carbohydrates,cell,biomolecule,function,carbohydrate,starches,starch|current||This is another page within a unit on large biomolecules-carbohydrates. This webpage contains information on the configuration and function of subunits within polysaccharides.  This page also describes the difference between cellulose and starch.|html|seniso|2001-08-14 11:22:54|2002-01-13 13:27:14|bio@msu (Michigan State University)|default
Carbohydrates, Build Polysaccharides Activity |MSU HHMI First Year Online Biology|Randy demos|/res/msu/bio/lg_biomols/carbo/macromol_850.html|polymerization,polysaccharides,polymer,polymers,carbohydrates,glucose,monomers,polysaccharide,shockwave,carbohydrate|current||This is another page within a unit on large biomolecules-carbohydrates. This webpage contains a SHOCKWAVE drag and drop exercise that allows you to build your own carbohydrate.|html|seniso|2001-08-14 11:26:25|2002-01-14 11:39:03|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Large Biomolecules - Carbos|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/lg_biomols/carbo/carbo.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Carbohydrates, Configuration and Polymerization of Subunits |MSU HHMI First Year Online Biology|Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/carb301.html|polymerization,polymer,position,carbohydrates,oh,glucose,carbohydrate|current||This page is part of a unit on carbohydrates. This is another page within a unit on large biomolecules-carbohydrates. This webpage contains information on the configuration and polymerization of subunits to form polysaccharides.|html|seniso|2001-08-14 11:20:00|2001-12-06 12:59:24|bio@msu (Michigan State University)|default
Identify Sugar|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/problems/macromol_01.problem|carbohydrates,sugar,carbohydrate|current||This page is part of a unit on carbohydrates.  This homework page is a multiple choice problem in which you identify the sugar molecule.|problem|seniso|2001-12-06 13:44:59|2002-01-08 14:58:45|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Carbohydrate Digestion|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/problems/carbodigest.problem|di,polysaccharides,polysaccharide,hydrolysis,digestion,carbohydrate|current||This page is part of a unit on carbohydrates.  This homework page is a true false question that looks at carbohydrate digestion.|problem|seniso|2001-12-06 13:51:20|2002-01-13 13:15:49|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Chitin|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/problems/carboQ.problem|polymer,chitin,carbohydrates,potato,beetle|current||This page is part of a unit on carbohydrates.  This homework page is a true false problem about chitin.|problem|seniso|2001-12-06 13:56:44|2002-01-13 13:14:07|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Inulin and Starch Structure|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/problems/inulinstarch.problem|jerusalem,monomer,artichokes,inulin,polysaccharide,carbohydrate,starch|current||This page is part of a unit on carbohydrates.  This homework page is a true false problem about carbohydrate digestion.|problem|seniso|2001-12-06 13:58:38|2002-01-13 13:18:30|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Carbohydrate Monomers|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/problems/carbomonomers.problem|monomers,carbohydrte,carbohydrates,digestion,glucose,carbohydrate|current||This page is part of a unit on carbohydrates.  This homework page is a mix and match question about carbohydrate monomers.|problem|seniso|2001-12-06 14:06:15|2002-01-13 13:28:20|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/problems/try2.problem|block|current|||problem|seniso|2002-01-10 09:13:34|2002-01-10 09:16:27|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/macromol_850a.gif||current||This page is used in a pop-up window.|gif|seniso|2001-12-06 13:08:13|2001-12-06 13:08:13|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/macromol_850a.html||current||This page is used in a pop-up window.|html|seniso|2001-12-06 13:09:00|2001-12-06 13:09:00|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/macromol_850b.html||current||This page is used in a pop-up window.|html|seniso|2001-12-06 13:09:21|2001-12-06 13:09:34|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/macromol_850c.html||current||This page is used in a pop-up window.|html|seniso|2001-12-06 13:09:50|2001-12-06 13:09:50|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/macromol_850d.html||current||This page is used in a pop-up window.|html|seniso|2001-12-06 13:10:03|2001-12-06 13:10:03|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Guy D Albertelli, MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Carbos|/res/msu/bio/lg_biomols/carbo/carb000.html|photons,energy,transport,molecule,carbohydrates,biomolecule,amino,molecules,proteins,lines,atp,protein,components,component,cells,chloroplasts,stored,electron,acid|current|||html|seniso|2002-01-09 04:55:22|2002-01-09 04:56:51|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Proteins - Introduction|MSU HHMI First Year Online Biology|Large Biomolecules - DRAFT|/res/msu/bio/lg_biomols/protein/prot100.html|casein,proteins,protein,biomolecule,amino,acid|current||This is another page within a chapter on large biomolecules. This webpage introduces the unit on proteins. |html|seniso|2001-08-14 13:41:58|2002-01-09 17:15:51|bio@msu (Michigan State University)|default
Proteins - Composition, , |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot200.html|proteins,biomolecule,amino,structure,lysine,molecule,protein,tryptophan,acid|current||This is another page within a chapter on large biomolecules-proteins. This webpage describes basic structure of proteins.  This page also has three CHIME animations of proteins.|html|seniso|2001-08-14 13:36:23|2001-12-10 11:06:08|bio@msu (Michigan State University)|default
Proteins - Backbone|MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot300.html|sidechain,casein,amino,proteins,protein,acids,acid,backbone|current||This is another page within a chapter on large biomolecules- proteins. This webpage describes the linkage of amino acids into chains in minor detail. This webpage also contains a CHIME animation.|html|seniso|2001-08-14 13:39:15|2001-12-07 13:15:35|bio@msu (Michigan State University)|default
Build protein, |MSU HHMI First Year Online Biology|Randy demos|/res/msu/bio/lg_biomols/protein/protein_810.html|polymerization,polypeptides,macromedia,polypeptide,acids,shockwave,acid|current||This page is part of a unit on large biomolecules-proteins. This webpage contains a shockwave demo in which you can construct an animo acid chain from amino acids. |html|seniso|2001-08-14 10:03:15|2002-01-14 09:22:38|bio@msu (Michigan State University)|default
Build specified protein, |MSU HHMI First Year Online Biology|Randy demos|/res/msu/bio/lg_biomols/protein/protein_820.html|chains,protein,chain,pro,acids,amino,polypeptide,proteins,acid|current||This webpage is part of a unit on large biomolecules- proteins.  This webpage contains a shockwave activity in which you construct an amino acid chain from amino acids.|html|seniso|2001-08-14 10:05:37|2002-01-13 17:36:52|bio@msu (Michigan State University)|default
Proteins - Structure, |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot400.html|pro,amino,proteins,protein,structure,primary,acids,acid|current||This webpage is part of a unit on large biomolecules-proteins.  This webpage discusses the relationship between structure and function in proteins and primary sturcture of proteins in detail.  |html|seniso|2001-08-14 10:08:14|2001-12-07 13:02:04|bio@msu (Michigan State University)|default
Proteins - Structure (side chains), |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot410.html|lysine,polar,histidine,leucine,met,phenylalanine,cys,asparagine,tyrosine,sidechain,thr,chemistry,alanine,ion,arginine,aspartic,lys,tyr,methionine,pro,glutamine,amine,amino,ph,arg,glycine,proteins,asn,asp,glutamic,hydrophobic,nonpolar,isoleucine,protein,chain,cysteine,phe,hydrophilic,cyan,gln,glu,gly,trp,valine,acids,side,ser,tryptophan,proline,val,leu,threonine,ala,acid,ile,serine|current||This is another page within a chapter on large biomolecules- proteins. This webpage describes in detail the four different types of amino acids and discusses side chain chemistry.  There is also a CHIME animation for each amino acid. |html|seniso|2001-08-14 13:43:43|2001-12-10 11:27:40|bio@msu (Michigan State University)|default
Proteins - Structure, 2-ary , |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot420.html|pleated,proteins,secondary,amino,structure,ahelix,helices,ahelices,protein,cytochromef,bpleated,acids,carboxyl,sidechains,hbond,acid|current||This webpage is part of a unit on large biomolecules- proteins. This webpage contains a discussion of the secondary structure of proteins.  It also has a CHIME animation showing the elements of secondary structure.|html|seniso|2001-08-14 10:20:07|2001-12-10 11:30:05|bio@msu (Michigan State University)|default
Proteins - Structure (folding), |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot430.html|proteins,protein,pande,vijay,amino,structure,animation,acid|current||This webpage is part of a unit on large biomolecules -proteins.  This webpage contains a discussion of the folding of proteins.  It also has a Quicktime movie showing the folding of an amino acid chain into a protein with tertiary structure.|html|seniso|2001-08-14 10:45:08|2002-01-09 17:21:10|bio@msu (Michigan State University)|default
Proteins - Structure, 4-ary , |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot440.html|quaternary,chain,subunits,polypeptides,structure,subunit,polypeptide,proteins|current||This page is part of a unit on large biomolecules- proteins. This webpage contains a discussion of the quaternary structure of proteins.  It also has a CHIME animation showing the elements of quaternary structure.|html|seniso|2001-08-14 10:47:28|2001-12-10 11:47:09|bio@msu (Michigan State University)|default
Proteins - Function, |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot500.html|protein,enzymes,chemical,papains,transport,structural,biochemical,storage,acids,casein,amino,papain,proteins,acid|current||This webpage is part of a unit on large biomolcules- proteins.  This webpage contains a discussion of the basic functions of proteins.  It also has a CHIME animation showing some enzymes.|html|seniso|2001-08-14 10:52:12|2001-12-10 11:50:58|bio@msu (Michigan State University)|default
Proteins - Assessment|MSU HHMI First Year Online Biology|Large Biomolecules - DRAFT|/res/msu/bio/lg_biomols/protein/prot600.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Large Biomolecules - Proteins|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/lg_biomols/protein/protein.sequence||current|||sequence|seniso|2001-12-19 09:10:00|2001-12-19 09:13:19|bio@msu (Michigan State University)|default
Proteins - Structure, 3-ary, |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot421.html|cytochrome,tertiary,amino,proteins,protein,cysteine,cysteines,cytochromef,proteinis,acids,acid|current||This webpage is part of a unit on large biomolecules- proteins. This webpage contains a discussion of the tertiary structure of proteins.  It also has a CHIME animation showing the elements of tertiary structure.|html|seniso|2001-08-14 10:22:49|2001-12-10 11:37:59|bio@msu (Michigan State University)|default
Proteins - Structure of enzymes, |MSU HHMI First Year Online Biology|Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/prot441.html|subunits,rubisco,enzyme,proteins,ribulose,quaternary,protein,quarternary,enzymes,structure,active|current||This webpage is part of a unit on large biomolecules- proteins. This webpage contains a discussion of the quaternary structure of proteins and the relationship of quaternary structure of proteins and active sites in enzymes.  It also has a CHIME animation showing the elements of quaternary structure.|html|seniso|2001-08-14 10:49:33|2001-12-10 11:48:52|bio@msu (Michigan State University)|default
Amino Acid Structure I|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/problems/aminoacidstr1.problem|protein,structure,acids,amino,proteins,acid|current||This webpage is part of a unit on large biomolecules -proteins.  This page is a true / false homework problem on amino acid structure.|problem|seniso|2001-12-10 10:43:13|2002-01-13 16:37:30|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Amino Acid Structure II|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/problems/aminoacidstr2.problem|structure,acids,amino,acid|current||This webpage is part of a unit on large biomolecules -proteins.  This page is a mix and match homework problem on the structure of amino acids.|problem|seniso|2001-12-10 10:46:05|2002-01-13 16:38:54|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Amino Acid Structure III|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/problems/backboneQ.problem|protein,prot,acids,amino,proteins,acid|current||This webpage is part of a unit on large biomolecules -proteins.  This page is another true / false homework problem on the structure of amino acids.|problem|seniso|2001-12-10 10:52:33|2002-01-13 16:40:10|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Protein Structure|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/problems/cytochromeQ.problem|protein,cytochrome,structure,quartenary,tertiary,acids,polypeptide,proteins,acid|current||This webpage is part of a unit on large bomolcules- proteins.  This is a true and false homework page on protein structure.|problem|seniso|2001-12-10 11:54:24|2002-01-13 16:43:03|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Protein Structure and Bonds|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/problems/ProtStructure_MM.problem|protein,hydrogen,structure,acids,amino,bonding,peptide,polypeptide,proteins,bonds,bond|current||This webpage is part of a unit on large biomolecules- proteins.  This is a mix and match homework problem on the role of bonding in protein structure.|problem|seniso|2001-12-10 12:03:35|2002-01-13 16:35:19|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Protein Degradation|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/problems/protdegQ.problem|monomer,protein,polypeptides,degredation,monomers,acids,amino,proteins|current||This webpage is part of a unit on large biomolecules -proteins.  This is a true and false homework page on protein degradation.|problem|seniso|2001-12-10 12:08:55|2002-01-13 16:45:41|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Protein Function|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/problems/protmatchQ_dbk.problem|co,protein,glycogen,hemoglobin,primary,proteins,function,glucose|current||This webpage is part of a unit on large biomolecules- proteins.  This is a mix and match homework problem on protein function.|problem|seniso|2001-12-10 12:42:57|2002-01-13 16:47:30|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Protein and RNA Structure|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/problems/proRNAstruc.problem|protein,structure,molecule,molecules,polynucleotide,proteins,structures|current||This webpage is part of a unit on large biomolecules- proteins.  This is a mix and match homework problem comparing the structure of proteins and polynucleotides. |problem|seniso|2001-12-10 12:51:26|2002-01-13 16:44:35|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/protein_820v.html|vasopressin|current||This is pop-up window for another page.|html|seniso|2001-12-10 11:34:45|2001-12-10 11:34:45|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/protein_820x.html|oxytocin|current||This is pop-up window for another page.|html|seniso|2001-12-10 11:35:12|2001-12-10 11:35:12|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/protein_810a.html||current|||html|seniso|2001-12-10 11:35:39|2001-12-19 09:43:20|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Proteins|/res/msu/bio/lg_biomols/protein/protein_820w.html||current||This page is used in a pop-up window.|html|seniso|2001-12-19 09:59:05|2001-12-19 09:59:05|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/graphics/bsedna2.gif||current|||gif|seniso|2001-12-07 11:00:02|2001-12-07 11:00:02|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Nucleic Acids, Introduction and Overview|MSU HHMI First Year Online Biology|Large Biomolecules - nucleic acids|/res/msu/bio/lg_biomols/nuc_acid/na100.html|nucleic,biomolecule,genes,proteins,nuclei,dna,protein,acids,acid|current||This is another page within a chapter on large biomolecules-nucleic acids. This webpage introduces the unit on nucleic acids.|html|seniso|2001-08-14 11:29:49|2001-12-18 13:05:34|bio@msu (Michigan State University)|default
Nucleic Acids, Basics of Composition |MSU HHMI First Year Online Biology|Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/na200.html|deoxy,deoxyribonucleic,nucleotide,ribonucleic,monomers,nucleotides,nucleic,acids,deoxyribose,polymers,acid,dna|current||This is another page within a chapter on large biomolecules-nucleic acids. This webpage describes the structure of nucleic acids.|html|seniso|2001-08-14 11:33:21|2002-01-07 10:34:07|bio@msu (Michigan State University)|default
Nucleic Acids, Building Polynucleotides |MSU HHMI First Year Online Biology|Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/na300.html|nucleotide,nucleic,rna,deoxyribose,polynucleotide,dna,chain,monomers,nucleotides,phosphate,ribose,acids,acid|current||This is another page within a chapter on large biomolecules-nucleic acids. This webpage describes the basic units within a polynucleotide. |html|seniso|2001-08-14 11:52:06|2001-12-07 10:25:22|bio@msu (Michigan State University)|default
Nucleic Acids, DNA is a composed of two polynucleotide chains|MSU HHMI First Year Online Biology|Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/na400.html|purine,nucleotide,polynucleotides,nucleic,rna,guanine,dna,uracil,nucleotides,acids,thymine,ribonucleic,pyrimidine,polynucleotide,deoxyribonucleic,chain,adenine,cystine,acid|current||This is another page within a chapter on large biomolecules-nucleic acids. This webpage describes the differences between purines and pyrimidines.|html|seniso|2001-08-14 11:55:31|2002-01-07 10:40:08|bio@msu (Michigan State University)|default
Nucleic Acids, Comparing RNA with DNA|MSU HHMI First Year Online Biology|Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/na500.html|rnas,molecule,rna,dna,uracil,acids,thymine,biomolecule,amino,polynucleotide,gene,trna,acid|current||This is another page within a chapter on large biomolecules-nucleic acids. This webpage contains a discussion of the differences between DNA and RNA.  It also has a CHIME animation of a tRNA.|html|seniso|2001-08-14 11:58:54|2002-01-07 10:40:37|bio@msu (Michigan State University)|default
Build nucleic acids activity|MSU HHMI First Year Online Biology|Large Biomolecules - DRAFT|/res/msu/bio/lg_biomols/nuc_acid/polynucleotide.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Large Biomolecules - Nucleic Acids|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/lg_biomols/nuc_acid/nuc_acid.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Nucleic Acids,  Sugars of Nucleic Acids|MSU HHMI First Year Online Biology|Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/na201.htm|deoxy,nucleic,rna,sugar,dna,acids,ribonucleic,deoxyribose,biomolecule,deoxyribonucleic,acid|current||This is another page within a chapter on large biomolecules-nucleic acids. This webpage describes the difference between ribose and deoxyribose.|htm|seniso|2001-08-14 11:36:20|2002-01-07 10:34:55|bio@msu (Michigan State University)|default
Nucleic Acids: Bases,|MSU HHMI First Year Online Biology|Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/na202.htm|nucleic,nucliec,uracil,nucleotides,pyrimidines,acids,purines,pyrimidine|current||This is another page within a chapter on large biomolecules-nucleic acids. This webpage describes the differences between purines and pyrimidines.|htm|seniso|2001-08-14 11:54:07|2002-01-07 10:35:33|bio@msu (Michigan State University)|default
Nucleic Acids, Build a nucleic acid|MSU HHMI First Year Online Biology|Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/nucleotide_810.html|biomolecules,nucleotide,nucleic,polynucleotide,activity,nucleotides,shockwave,drag,acid|current||This is another page within a chapter on large biomolecules-nucleic acids. This webpage contains a shockwave drag and drop that allows you to build your own polynucleotide.|html|seniso|2001-08-14 12:03:02|2001-08-14 12:03:02|bio@msu (Michigan State University)|default
Build polynucleotides (part 1)|MSU HHMI First Year Online Biology|Randy demos|/res/msu/bio/lg_biomols/nuc_acid/nucleotide_812.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Build polynucleotides (part 2)|MSU HHMI First Year Online Biology|Randy demos|/res/msu/bio/lg_biomols/nuc_acid/nucleotide_813.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Base Pairing|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/problems/basepairingQ.problem|pairing,dna,base|current||This webpage is part of a unit on nucleic acids.  This is a multiple choice homework problem on base pairing.|problem|seniso|2001-12-07 11:01:32|2001-12-07 11:01:32|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Nucleic Acid Degredation|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/problems/nabreakdown.problem|breakdown,degredation,nucletides,acids,amino,acid|current||This page is part of a unit on nucleic acids.  This is a true / false homework problem on nucleic acid degradation.|problem|seniso|2001-12-07 11:04:22|2002-01-13 13:41:28|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Nucleic Acid Chemistry |MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Nucleic Acids|/res/msu/bio/lg_biomols/nuc_acid/problems/nachemQ.problem|base,uracil,adenine,chemistry,nucleic,guanine,sugar,acids,acid|current||This page is part of a unit on nucleic acids.  This is a mix and match homework page about the components of nucleic acids.|problem|seniso|2001-12-07 11:12:52|2002-01-13 16:32:09|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Marlene Camaron, MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/graphics/water-drop.jpg||current|||jpg|seniso|2002-01-07 08:38:43|2002-01-07 08:43:49|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Marlene Camaron, MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/graphics/nonpolar.jpg||current|||jpg|seniso|2002-01-07 08:39:12|2002-01-07 08:43:42|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Lipids, Introduction and Overview|MSU HHMI First Year Online Biology|Large Biomolecules - DRAFT|/res/msu/bio/lg_biomols/lipid/lipid100.html|biomolecules,cholesterol,lipids,lipid|current||This webpage is part of a unit on large biomolecules. This webpage introduces the unit on lipids.|html|seniso|2001-08-14 12:07:09|2002-05-09 10:22:52|bio@msu (Michigan State University)|default
Lipid-What's a Lipid?, |MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid200.html|biomolecules,molecule,molecules,biological,lipid|current||This webpage is part of a unit on large biomolecules-lipids. This webpage describes the characteristics of lipids. |html|seniso|2001-08-14 12:08:48|2001-12-10 13:24:54|bio@msu (Michigan State University)|default
Lipids, Why are they important?|MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid300.html|steroids,biomolecules,testerone,lipids,biomolecule,cholesterol,lipid,triglycerides,fat,phospholipids,acid|current||This is another page within a chapter on large biomolecules. This webpage describes the different types of lipids.  It also has CHIME animations for each of the four main groups of lipids. |html|seniso|2001-08-14 12:56:01|2001-12-10 13:35:46|bio@msu (Michigan State University)|default
Lipid-As Fats, |MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid400.html|biomolecules,molecule,glycerol,saturated,monounsaturated,biomolecule,polyunsaturated,molecules,fats,triglycerides,lipids,unsaturated,lipid,fat,acid|current||This is another page within a chapter on large biomolecules- lipids. This webpage describes the structure of lipids in detail.|html|seniso|2001-08-14 12:59:13|2001-12-10 13:37:19|bio@msu (Michigan State University)|default
Lipid - Phospholipids, |MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid550.html|polar,biomolecules,fatty,molecule,fattyacid,biomolecule,molecules,fats,hydrophobic,hydrophilic,acids,lipids,lipid,fat,phospholipids,acid,phospholipid|current||This is another page within a chapter on large biomolecules-lipids. This webpage describes phospholipids in detail. |html|seniso|2001-08-14 13:01:55|2002-01-14 10:58:46|bio@msu (Michigan State University)|default
Lipid - Steroids, |MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid600.html|testosterone,steroids,biomolecules,steroid,estradiol,anabolic,lipids,biomolecule,molecules,lipid,fat|current||This is another page within a chapter on large biomolecules-lipids. This webpage describes steroids in minor detail. |html|seniso|2001-08-14 13:03:59|2001-12-10 13:42:30|bio@msu (Michigan State University)|default
Lipid-Build a Lipid Activity|MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid500.html|activity,lipid,lipids,shockwave|current||This webpage is part of a unit on large biomolcules- lipids.  This page contains a SHOCKWAVE animation that allows you to build various lipids.|html|seniso|2001-12-10 13:53:16|2002-05-17 13:35:26|bio@msu (Michigan State University)|default
Lipid-Build a Lipid Activity|MSU HHMI First Year Online Biology|Large Biomolecules - DRAFT|/res/msu/bio/lg_biomols/lipid/lipid_500.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Large Biomolecules - Lipids|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/lg_biomols/lipid/lipid.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Lipids, Hydrophobic Lipids |MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid201.html|nonpolar,polar,positive,hydrophilic,biomolecules,molecule,lipids,biomolecule,molecules,lipid,hydrophobic|current||This webpage is part of a unit on large biomolecules -lipids. This webpage describes the polar and nonpolar characteristics of lipids. |html|seniso|2001-08-14 12:10:30|2002-01-07 08:45:17|bio@msu (Michigan State University)|default
Lipids - Cholesterol, |MSU HHMI First Year Online Biology|Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid601.html|nonpolar,testosterone,polar,biomolecules,progesterone,estradiol,lipids,biomolecule,cholesterol,lipid,fat,phospholipids,phospholipid|current||This is another page within a chapter on large biomolecules-lipids. This webpage describes cholesterol in minor detail. This page also has a CHIME animation of cholesterol, testosterone, and progesterone.|html|seniso|2001-08-14 13:09:19|2002-01-13 17:06:01|bio@msu (Michigan State University)|default
Linoleic acid Digestion|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/problems/lipidQ.problem|oil,linoleic,glycerol,saturated,lipids,fat,acid|current||This webpage is part of a unit on large biomolecules- lipids.  This is a true and false homework problem about linoleic acid.|problem|seniso|2001-12-10 13:12:33|2002-01-13 13:36:49|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Lipid Digestion|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/problems/lipidigetsQ.problem|fatty,enzymes,acids,lipids,molecules,digested,lipid|current||This webpage is part of a unit on large biomolecules- lipids.  This is a true and false homework page about lipid digestion.|problem|seniso|2001-12-10 13:14:26|2002-01-13 13:39:33|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Lipid Components|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/problems/lipcomponentQ.problem|components,fatty,glycerol,lipids,bilayer,lipid|current||This webpage is part of a unit on large biomolecules -lipids.  This is a mix and match homework page on lipid components.|problem|seniso|2001-12-10 13:22:04|2002-01-13 13:35:17|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid500pop.html|simulation,molecule,work,protein,activity,position,lipids,phospholipid,water,block,rotates,spring,lipid,fat,acid|current||This is a pop-up window for another page.|html|seniso|2001-12-10 13:54:44|2002-01-09 17:26:40|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
build a lipid activity|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Lipids|/res/msu/bio/lg_biomols/lipid/lipid500.dcr||current||This is an interactive shockwave animation which allows you to build a lipid.|dcr|seniso|2001-12-10 13:56:44|2002-05-17 13:32:42|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro|/res/msu/bio/lg_biomols/graphics/starch_new70per.gif||current|||gif|seniso|2001-12-06 14:05:07|2001-12-06 14:05:07|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro|/res/msu/bio/lg_biomols/graphics/inulin70per.gif||current|||gif|seniso|2001-12-06 14:05:17|2001-12-06 14:05:17|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro|/res/msu/bio/lg_biomols/graphics/bsedna2.gif||current|||gif|seniso|2001-12-07 10:59:10|2001-12-07 10:59:10|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Identify small biomolecules|MSU HHMI First Year Online Biology|Large Biomolecules - DRAFT|/res/msu/bio/lg_biomols/practice/macromol_830.html|biomolecules,practice|current|||html|seniso|2002-01-15 11:01:47|2002-01-15 16:24:34|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Large Biomolecules - Review|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/lg_biomols/practice/practice.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Biomolecule Identification|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/macromol_02.problem|hydroxyl,biomolecules,fatty,nucleic,molecule,aldehyde,sugar,identification,amino,lipid,acid|current||This webpage is part of a unit on large biomolecules.  This is a homework page with a multiple choice problem. |problem|seniso|2001-12-11 10:30:42|2002-01-13 13:51:37|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Membrane Components|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/membcomp1.problem|biomolecules,molecule,monounsaturated,polysaccharide,molecules,membrane|current||This webpage is part of a unit on large biomolecules.  This is a true and false homework problem dealing with identification of membrane components.|problem|seniso|2001-12-11 10:34:34|2002-01-13 16:16:04|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Membrane Components II|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/membcomp2.problem|components,biomolecules,molecule,molecules,membrane,hydrophobic|current||This page is part of a unit on large biomolecules.  This is another true and false homework problem concerning identification of membrane components.|problem|seniso|2001-12-11 10:36:29|2002-01-13 16:17:27|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Membrane Components III|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/membcomp3.problem|components,hydrophilic,biomolecules,molecule,membrane|current||This page is part of a unit on large biomolecules.  This is another true and false homework problem concerning identification of membrane components.|problem|seniso|2001-12-11 10:38:23|2002-01-13 16:18:40|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Membrane Components IV|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/membcomp4.problem|components,hydrophilic,biomolecules,molecule,molecules,membrane|current||This page is part of a unit on large biomolecules.  This is another true and false homework problem concerning identification of membrane components.|problem|seniso|2001-12-11 10:39:42|2002-01-13 16:20:10|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Identify Biomolecules III|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/macromol_03.problem|biomolecules,identify|current||This webpage is part of a unit on large biomolecules.  This is a mix and match homework problem that concerns identification of large biomolecules.|problem|seniso|2001-12-11 10:45:21|2002-01-08 13:33:00|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Identify Biomolecules II|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/identQ2.problem|biomolecules,molecule,biomolecule|current||This webpage is part of a unit on large biomolecules.  This is a mix and match homework problem that identifies large biomolecules.|problem|seniso|2001-12-11 15:10:57|2002-01-13 13:49:11|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Biomolecule Bonds|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/BondMatch_MM.problem|biomolecules,fatty,nucleic,carboxyl,phosphate,molecule,glycerol,monosaccharides,sugar,acids,biomolecule,amino,bonding,polypeptide,phospholipids,acid,bond|current||This page is part of a unit on large biomolecules.  This is a mix and match homework problem about molecule bonding.|problem|seniso|2001-12-11 15:19:08|2002-01-13 13:44:34|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Functional Groups|MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro, Large Biomolecules - Review|/res/msu/bio/lg_biomols/practice/problems/FuncGrp_MM.problem|group,biomolecules,ion,molecule,functional,molecules,acid,hydrophobic|current||This webpage is part of a unit on large biomolecules.  This is a mix and match homework problem concerning the functional groups on large biomolecules.|problem|seniso|2001-12-11 15:29:02|2002-01-13 13:46:39|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Large Biomolecules - Intro|/res/msu/bio/lg_biomols/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Large Biomolecules Sequence - All|MSU HHMI First Year Online Biology|Biology|/res/msu/bio/lg_biomols/lg_biomols.sequence||current|||sequence|seniso|2001-12-18 16:23:31|2002-08-23 23:29:45|bio@msu (Michigan State University)|default
Introduction, |MSU HHMI First Year Online Biology|Large Biomolecules - Intro|/res/msu/bio/lg_biomols/lbm100.html|biomolecules,nucleic,molecule,carbohydrates,biomolecule,amino,molecules,proteins,digestion,acids,lipids,digested,lipid,carbohydrate|current||This pageis part of a unit on large biomolecules. This webpage introduces a unit on large biomolecules including lipids, carbohydrates, proteins, and nucleic acids.|html|seniso|2001-08-10 13:38:28|2001-12-19 11:33:29|bio@msu (Michigan State University)|default
Building Macromolecules, |MSU HHMI First Year Online Biology|Large Biomolecules - Intro|/res/msu/bio/lg_biomols/lbm200.html|macromolecule,monomer,poly,polymer,mono,subunits,biomolecules,synthesis,monomers,subunit,molecule,dehydration,macromolecules,covalent,biomolecule,polymers,oligomer,molecules,hydrolysis,units,bond,tetramer,starch|current||This webpage is part of a unit on large biomolecules.  This page describes the formation of macromolecules from smaller subunits and the formation and degration of covalent bonds.|html|seniso|2001-08-10 13:42:39|2001-12-19 11:22:54|bio@msu (Michigan State University)|default
Chime Chem Index|MSU HHMI First Year Online Biology|Large Biomolecules - DRAFT|/res/msu/bio/lg_biomols/lbm_pdb_idx.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Building Macromolecules|MSU HHMI First Year Online Biology|Large Biomolecules - DRAFT|/res/msu/bio/lg_biomols/polymers.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Large Biomolecules Study Guide |MSU HHMI First Year Online Biology|Bio Information, Large Biomolecules - Intro|/res/msu/bio/lg_biomols/lbm000.html|protein,study,biomolecules,fatty,guide,questions,carbohydrates,macromolecules,acids,lipids,biomolecule,amino,molecules,objectives,proteins,question,carbohydrate|current||This page is part of a unit on large biomolecules.  This webpage is a study guide, overview, introductionary page to a unit on large biomolecules. |html|seniso|2001-08-10 13:27:51|2002-01-13 13:26:06|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Membrane:Structure & Function|/res/msu/bio/membranes/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Membranes:  Structure & Function|MSU HHMI First Year Online Biology|Biology|/res/msu/bio/membranes/membranes.sequence||current||This is a unit on the structure and function of membranes.|sequence|seniso|2002-01-14 16:02:51|2002-02-13 16:14:27|bio@msu (Michigan State University)|default
Membrane: Structure and Function: Membrane of Sperm Cell|MSU HHMI First Year Online Biology|Membrane:Structure & Function|/res/msu/bio/membranes/memb_100.html|sperm,membrane,fertilization,membranes,fertilize|current||This page is part of a unit on the structure and function of membranes.  This page presents the human sperm cell as a model for studying membrane structure.|html|seniso|2001-08-23 16:58:55|2002-01-23 14:01:30|bio@msu (Michigan State University)|default
Membrane: Structure and Function: Cell Membrane Components|MSU HHMI First Year Online Biology|Membrane:Structure & Function|/res/msu/bio/membranes/memb_110.html|structural,glycolipids,integral,bilayer,embedded,proteins,membrane,mosaic,peripheral,protein,membranes,lipids,phospholipid,carbohydrates,cholesterol,glycoproteins,fluid,lipid,phospholipids,carbohydrate,glyco|current||This page is part of a unit on the structure and function of membranes.  This page presents the primary structural components of membranes.|html|seniso|2001-08-23 17:04:05|2002-01-23 14:11:53|bio@msu (Michigan State University)|default
Membrane: Structure and Function: Phospholipids: The Fluid Fabric|MSU HHMI First Year Online Biology|Membrane:Structure & Function|/res/msu/bio/membranes/memb_120.html|bilayer,membrane,hydrophobic,protein,hydrophilic,membranes,phospholipid,polar,structure,fabric,phospholipids,cytoplasm|current||This webpage is part of a unit on the structure and function of membranes. This page describes phospholipids in detail.|html|seniso|2001-08-23 17:11:23|2002-01-29 20:03:07|bio@msu (Michigan State University)|default
Membrane: Structure and Function: Human Sperm (continued)|MSU HHMI First Year Online Biology|Membrane:Structure & Function|/res/msu/bio/membranes/memb_150.html|sperm,structural,sperms,membrane,mosaic,fluid,fertilization,membranes|current||This page is part of a unit on the structure and function of membranes.  This page revisits the information on human sperm which was presented in a previous page.|html|seniso|2001-08-23 17:20:33|2002-02-04 09:12:23|bio@msu (Michigan State University)|default
The Fluid Mosaic Model of Membranes|MSU HHMI First Year Online Biology|Membrane:Structure & Function|/res/msu/bio/membranes/memb_170.html|glycoproteins,fluid,structure,glycolipids,functional,bilayer,proteins,phospholipids,function,membrane,phospholipid,mosaic|current||This page is part of a unit on the structure and function of membranes.  This page describes in detail the fluid mosaic nature of membranes.|html|seniso|2001-08-23 17:26:03|2002-01-23 14:20:25|bio@msu (Michigan State University)|default
Membrane: Structure and Function Study Guide|MSU HHMI First Year Online Biology|Bio Information, Membrane:Structure & Function|/res/msu/bio/membranes/memb_005.html|membrane,mosaic,membranes,fluid|current||This webpage is part of a unit on the structure and function of membranes.  This page contains the objectives for the unit and provides an introduction to the other pages on membrane structure.|html|seniso|2001-08-23 16:54:31|2002-01-14 11:22:26|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Membranes: Membrane Transport : Objectives|MSU HHMI First Year Online Biology|Bio Information, Membrane:Structure & Function|/res/msu/bio/membranes/memb_200.html|transport,membrane,mosaic,fluid,membranes|current||This page is part of a unit on membrane transport.  This page contains the objectives to the unit and provides an introduction to the other pages on membrane transport.|html|seniso|2001-08-23 23:12:03|2002-01-15 17:14:22|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Membranes: Membrane Transport : Diffusion|MSU HHMI First Year Online Biology|Bio Information, Membrane:Structure & Function|/res/msu/bio/membranes/memb_210.html|membranes,diffusion,membrane|current||This page is part of a unit on membane transport.  This page dscribes the process of diffusion in minor detail.|html|seniso|2001-08-23 23:16:43|2002-01-29 16:26:07|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Membranes: Membrane Transport: Active Transport: ATP and Production of a Membrane Potential|MSU HHMI First Year Online Biology|Bio Information, Membrane:Structure & Function|/res/msu/bio/membranes/memb_270.html|membrane,electrical,atp,membranes,cotransport,transport,electrochemical,concentration,potential|current||This page is part of a unit on membrane transport.  This page discusses active transport in more detail.  This page describes a proton pump, membrane potential and potential energy. |html|seniso|2001-08-23 23:55:54|2002-01-29 18:26:41|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Cell Cycle (BS111 Sp 99)|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/mitosis/mitosis.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Cell Cycle Introduction|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/cell_cycle_020.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Cell Cycle Phases|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/cell_cycle_030.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Chromosome Introduction|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/chromosome_010.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Histones and Nucleosomes|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/chromosome_020.htm||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Non-dividing cell|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/mitosis_220.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Mitosis Phases|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/mitosis_235.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Mitosis stages - in-depth info|MSU HHMI First Year Online Biology|Randy demos|/res/msu/bio/mitosis/mitosis_251.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Mitotic Spindles|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/mitosis_255.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Cell Cycle Control|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/cell_cycle_200.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Checkpoints|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/cell_cycle_210.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Molecular Mechanisms|MSU HHMI First Year Online Biology|Cell Cycle (BS111 Sp 99)|/res/msu/bio/mitosis/cell_cycle_220.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
The Story of Photosynthesis, Photosynthesis is a TWO-step process, |MSU HHMI First Year Online Biology|Photosynthesis: Light Reactions|/res/msu/bio/photosyn/photo_015_nb.htm|rubp,dinucleotide,twostep,triphosphate,energy,chemical,calvin,cycle,chloroplast,step,photo,ribulose,atp,nicotonamideadenine,co,adenine,reactions,bisphosphate,phosphate,light,photosynthesis,nadph,plant|current||This page introduces photosynthesis as a two step process that contains the light reactions and the Calvin cycle.  It also mentions the gain in plant biomass coming from the incorporation of the mass from carbon dioxide into the plant.|htm|seniso|2001-08-06 13:24:17|2001-11-05 14:43:46|bio@msu (Michigan State University)|default
What you will know about the Light Reactions of Photosynthesis |MSU HHMI First Year Online Biology|Photosynthesis: Light Reactions|/res/msu/bio/photosyn/photo_013.htm|photosystems,study,energy,chemical,reactions,guide,light,chloroplasts,photosynthesis,objectives|current||This page is part of unit on the light reactions of photosynthesis. This is an objectives page introducing a study guide on the light reactions of photosynthesis.|htm|seniso|2001-08-06 13:32:23|2001-11-05 14:45:48|bio@msu (Michigan State University)|default
Photosynthesis: Light Reactions, The Chloroplast |MSU HHMI First Year Online Biology|Photosynthesis: Light Reactions|/res/msu/bio/photosyn/photo_042.htm|organelles,thylakoid,chloroplast,photo,matrix,granum,membrane,stroma,reactions,light,chloroplasts,photosynthesis,plant|current||This is a webpage that describes the chloroplast organelle.  It has a nice graphic that gives a closer look at the chloroplast and it's internal membranes.|htm|seniso|2001-08-07 15:30:40|2002-01-29 13:29:42|bio@msu (Michigan State University)|default
Thylakoid Membranes, The |MSU HHMI First Year Online Biology|Photosynthesis: Light Reactions|/res/msu/bio/photosyn/photo_045_nb.htm|lumen,thylakoid,chloroplast,photosynthesis,photo,embedded,lipid,proteinpigment,membrane,structures|current||This is a webpage describing the thylakoid membrane.  There is a graphic showing the organization of structures embedded in the thylakoid membrane.|htm|seniso|2001-08-07 15:49:39|2002-02-19 12:13:01|bio@msu (Michigan State University)|default
Photosynthesis: Light Reactions, Light and Color|MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/problems/lightandcolor.problem|red,color,violet,light,ultraviolet,infrared,problem,photosynthesis,soybean,colors,spectrum,question|current||This page is part of a unit on the light reactions of photosynthesis.  This is a true/false homework problem involving the color spectrum and color perception. |problem|seniso|2001-08-06 13:40:57|2002-01-25 09:31:20|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Photosynthesis: Light Reactions, Light and Color |MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/problems/lightandcolor_II_dbk.problem|reflect,soybeans,soybean,colors,question,color,reactions,light,pigments,problem,photosynthesis,leaf,absorb,photosynthetic|current||This page is part of a unit on the light reactions of photosynthesis.  This is a true/false homework problem that looks at the role of photosynthetic pigments in photosynthesis. |problem|seniso|2001-08-06 13:45:49|2002-02-05 17:14:51|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Photosynthesis: Light Reactions, Light and the Absorption Spectra of Photosynthetic Pigments|MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/problems/photo_spectra_dbk.problem|accessory,chlorophyll,pigment,pigments,carotenoid,problem,spectra,photosynthesis,absorb,soybean,spectrum,question,absorption|current||This page is part of a unit on the light reactions of photosynthesis.  
 This is a true/false homework problem that discusses the role of the accessory pigments in the light reactions of photosynthesis.|problem|seniso|2001-08-06 13:54:38|2002-01-25 09:35:19|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/problems/photo_801.html||current||This page is a popup window for another page.|html|seniso|2001-12-03 16:43:50|2001-12-03 16:43:50|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Photosynthesis: Light Reactions|MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/problems/LightReaction.problem|oxygen,plastoquinone,complex,cytochrome,ferrodoxin,synthesis,plastocyanin,gradient,photosynthesis,photosystem,electron,water,atp|current||This page is part of a unit on the light reactions of photosynthesis.  This is a multiple choice homework problem summarizing the light reactions of photosynthesis.|problem|seniso|2001-12-04 13:14:15|2002-02-26 12:37:08|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Where does the oxygen go?|MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/problems/experimenttwo.problem|oxygen,heavy,synthesis,photosynthesis,ho,heaviness|current||This page is part of a unit on the light reactions of photosynthesis.  This is a true/false homework problem discussing how scientists use heavy oxygen to study photosynthesis.|problem|seniso|2001-12-04 13:17:52|2002-01-28 09:28:16|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Redox Reactions in Photosynthesis|MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/problems/LightReactionsII_dbk.problem|photosystem,oxidation,oxidized,photosynthesis,cytochrome,redox,reduction,plastoquinone,reactions,plastocyanin|current||This page is part of a unit on the light reactions of photosynthesis.  This is a multiple choice homework problem summarizing the redox reactions of photosynthesis.|problem|seniso|2001-12-04 13:43:27|2002-02-05 17:26:02|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
The Light Reactions: A Tale of Gain and Loss|MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/problems/gainandloss.problem|reduced,oxidized,thylakoid,reactions,photosynthesis|current||This page is part of a unit on the light reactions of photosynthesis.  This is a multiple choice homework problem summarizing the gains and losses that occur during photosynthesis.|problem|seniso|2001-12-04 13:50:23|2002-02-19 13:00:16|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
The Story of Photosynthesis, Soybeans: From Field to Table and Beyond|MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/photo_010_nb.htm|protein,beans,material,energy,mass,crop,soybeans,biomass,biochemical,photosynthesis,max,photo,soybean,glycine,tofu,plant,agricultural,soy|current||This is an introductory page to a unit on the light reactions of photosynthesis.  It introduces the soybean as an important agricultural crop that uses photosynthesis to produce biochemical energy to gain biomass.   |htm|seniso|2001-08-06 13:13:43|2001-11-05 14:40:28|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Biology Account, MSU HHMI First Year Online Biology|Bio Information, Photosynthesis: The Calvin Cycle|/res/msu/bio/photosyn/photo.050a.htm|photosystem,photosynthesis|current|||htm|seniso|2001-09-08 21:57:23|2001-09-08 21:57:23|bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/graphics/krebs_nr.gif||current|||gif|seniso|2001-11-14 14:47:18|2001-11-14 14:47:18|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/graphics/krebs_re9.gif||current|||gif|seniso|2001-11-14 14:47:38|2001-11-14 14:47:38|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/graphics/krebs_re7.gif||current|||gif|seniso|2001-11-14 14:47:55|2001-11-14 14:47:55|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/graphics/krebs_re7r.gif||current|||gif|seniso|2001-11-14 14:48:14|2001-11-14 14:48:14|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/chemiosmosis/graphics/ATP_synthase.gif||current|||gif|seniso|2001-11-14 13:40:42|2001-11-14 13:40:42|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Cell Respiration: ETC|/res/msu/bio/respiration/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Cell Respiration: ETC|MSU HHMI First Year Online Biology|Physics|/res/msu/bio/respiration/respiration.sequence||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
The Processes of Cellular Respiration|MSU HHMI First Year Online Biology|Cell Respiration: Glycolysis |/res/msu/bio/respiration/respir_117.html|chain,cycle,electron,krebs,mitochondria,mitochondrion,respiration,transport|current||This page is part of a unit describing the process of glycolysis. This page provides a brief description of glycolysis, the Krebs cycle, and the electron transport chain.|html|seniso|2001-09-03 20:37:14|2002-06-28 10:34:25|bio@msu (Michigan State University)|default
Evolutionarily speaking....|MSU HHMI First Year Online Biology|Cell Respiration: Glycolysis |/res/msu/bio/respiration/respir_426.html|aerobic,anaerobic,fermentation,glycolysis,respiration|current||This page is part of a unit describing the process of glycolysis.  This page provides the summary for the unit by briefly describing glycolysis in evolutionary terms.|html|seniso|2001-09-03 21:53:02|2002-06-28 10:18:25|bio@msu (Michigan State University)|default
Objectives|MSU HHMI First Year Online Biology|Cell Respiration: Glycolysis |/res/msu/bio/respiration/respir_090.html|anaerobic,fermentation,glycolysis,resp,respiration|current||This page is part of a unit describing the process of glycolysis. This page provides an brief introduction and objectives for the unit.|html|seniso|2001-09-03 20:40:38|2002-06-28 10:34:55|bio@msu (Michigan State University)|default
The stepwise breakdown of glucose |MSU HHMI First Year Online Biology|Cell Respiration: Glycolysis |/res/msu/bio/respiration/respir_115.html|co,fermentation,glucose,glycolysis,respiration|current||This page is part of a unit describing the process of glycolysis. This page provides an introduction to the stepwise break down of glucose.|html|seniso|2001-09-03 20:47:37|2002-06-28 10:30:55|bio@msu (Michigan State University)|default
A note about chemical structure|MSU HHMI First Year Online Biology|Cell Respiration: Glycolysis |/res/msu/bio/respiration/respir_118.html|break,down,fermentation,glucose,glycolysis,pi,respiration|current||This page is part of a unit describing the process of glycolysis. This page describes the structure of glucose and presents the representation of structure used throughout the rest of the unit. |html|seniso|2001-09-03 20:51:08|2002-06-28 10:30:09|bio@msu (Michigan State University)|default
Summary: Carbon Backbones |MSU HHMI First Year Online Biology|Cell Respiration: Glycolysis |/res/msu/bio/respiration/respir_201a.html|exercise,glycolysis,respiration|current||This page is part of a unit describing the process of glycolysis.  This page provides an interactive exercise that builds the pathway involved in glycolysis.  This page also contains a link to another glycoysis interactive exercise. |html|seniso|2001-09-03 21:15:24|2002-06-28 10:19:30|bio@msu (Michigan State University)|default
Recycling NAD: alcohol and lactic acid fermentation |MSU HHMI First Year Online Biology|Cell Respiration: ETC|/res/msu/bio/respiration/respir_420b.html|alcohol,anaerobic,co,fermentation,glycolysis,nad,nadh,pyruvate,respiration|current||This page is part of a unit describing the process of cellular respiration.  This page describes the way in which NAD is recycled in glycolysis.|html|seniso|2001-09-03 21:44:03|2002-06-28 10:19:01|bio@msu (Michigan State University)|default
Objectives|MSU HHMI First Year Online Biology|Cell Respiration: Krebs Cycle|/res/msu/bio/respiration/respir_091.html|cycle,glycolysis,krebs|current||This page is part of a unit on the Krebs cycle.  This page provides the objectives to the unit by presenting them in the form of questions that are answered by the end of the unit.|html|seniso|2001-09-09 22:52:00|2002-06-28 10:01:10|bio@msu (Michigan State University)|default
Acetyl CoA: Link between Glycolysis and the Krebs Cycle|MSU HHMI First Year Online Biology|Cell Respiration: Krebs Cycle|/res/msu/bio/respiration/respir_222.html|co,cycle,glycolysis,krebs,mitochondria,respir,respiration|current||This page is part of a unit on the Krebs cycle.  This page describes the acetyl CoA conversion and a brief description of the Krebs cycle and the electron transport chain.|html|seniso|2001-09-09 23:01:26|2002-06-28 10:03:21|bio@msu (Michigan State University)|default
A word about the compound acetyl-CoA...|MSU HHMI First Year Online Biology|Cell Respiration: Krebs Cycle|/res/msu/bio/respiration/respir_225.html|acetyl,acetylcoa,co,coa,cycle,glycolysis,krebs,pyruvate,respir,respiration|current||This page is part of a unit on the Krebs cycle.  This page describes the conversion of pyruvate into acetyl CoA in more detail from the previous page.|html|seniso|2001-09-09 23:09:41|2002-06-28 10:04:17|bio@msu (Michigan State University)|default
Fate of Acetyl CoA  |MSU HHMI First Year Online Biology|Cell Respiration: Krebs Cycle|/res/msu/bio/respiration/respir_230.html|acetyl,acetylcoa,coa,cycle,glycolysis,krebs,respiration|current||This page is part of a unit on the Krebs cycle.  This page provides a brief description of what happens to acetyl CoA in the mitochondrion.  This page also provides additional questions which will be answered by the end of the unit.glycolysis.|html|seniso|2001-09-09 23:15:18|2002-06-28 10:06:28|bio@msu (Michigan State University)|default
Tracking the Krebs Cycle's Major Players|MSU HHMI First Year Online Biology|Cell Respiration: Krebs Cycle|/res/msu/bio/respiration/respir_250.html|acetyl,coa,cycle,krebs,respiration|current||This page is part of a unit on the Krebs cycle.  This page contains an interactive exercise which tracks the movement of carbon in the Krebs cycle.  This page also presents the names of the reactants and products in the cycle.|html|seniso|2001-09-09 23:21:23|2002-06-28 10:08:52|bio@msu (Michigan State University)|default
Generation of NADH and FADH2|MSU HHMI First Year Online Biology|Cell Respiration: Krebs Cycle|/res/msu/bio/respiration/respir_255.html|co,cycle,fad,fadh,gylcolysis,krebs,nad,nadh,respir,respiration|current||This page is part of a unit on the Krebs cycle.  This page describes the reduction of NAD and FAD in the Krebs cycle.|html|seniso|2001-09-09 23:28:10|2002-06-28 10:09:55|bio@msu (Michigan State University)|default
Oxidation in the Krebs Cycle|MSU HHMI First Year Online Biology|Cell Respiration: Krebs Cycle|/res/msu/bio/respiration/respir_290.html|cycle,glycolysis,krebs,oxidation,respiration|current||This page is part of a unit on the Krebs cycle.  This page describes the oxidation reactants in the Krebs cycle.|html|seniso|2001-09-09 23:34:55|2002-06-28 10:10:16|bio@msu (Michigan State University)|default
Summary Exercise: Building the Krebs Cycle|MSU HHMI First Year Online Biology|Cell Respiration: Krebs Cycle|/res/msu/bio/respiration/respir_310.html|co,cycle,glycolysis,krebs,respir,respiration|current||This page is part of a unit on the Krebs cycle.  This page is an interactive exercise that provides a summary for the unit.  This page matches various chemical reactions from the Krebs cycle with descriptions of the reations.|html|seniso|2001-09-09 23:45:08|2002-06-28 10:11:38|bio@msu (Michigan State University)|default
Objectives|MSU HHMI First Year Online Biology|Cell Respiration: ETC|/res/msu/bio/respiration/respir_505.html|cycle,glycolysis,krebs,respiration|current||This page is part of a unit on the electron transport chain.  This page provides the objectives for the unit by presenting questions which will be answered by the end of the unit.|html|seniso|2001-09-10 00:09:31|2002-06-28 09:49:48|bio@msu (Michigan State University)|default
Background for the Animations of Electron Transport Chain|MSU HHMI First Year Online Biology|Cell Respiration: ETC|/res/msu/bio/respiration/respir_540.html|cellular,chain,electron,ion,man,mitochondrion,respiration,transport|current||This page is part of a unit on the electron transport chain.  This page provides the instructions for using the animation on the next page of the unit.|html|seniso|2001-09-10 17:18:00|2002-06-28 09:56:32|bio@msu (Michigan State University)|default
The Electron Transport Chain animation!|MSU HHMI First Year Online Biology|Cell Respiration: ETC|/res/msu/bio/respiration/respir_545.htm|animation,chain,electron,respir,respiration,transport|current||This page is part of a unit on the electron transport chain.  This page presents a detailed animation of the electron transport chain.|htm|seniso|2001-09-10 17:21:51|2002-06-28 09:57:52|bio@msu (Michigan State University)|default
Energy Balance|MSU HHMI First Year Online Biology|Cell Respiration: ETC|/res/msu/bio/respiration/respir_385.html|chain,electron,glycolysis,respiration,transport|current||This page is part of a unit on the electron transport chain.  This page presents an interactive exercise that looks at the energy being produced by the electron transport chain.|html|seniso|2001-09-10 17:29:57|2002-06-24 14:47:56|bio@msu (Michigan State University)|default
Cellular Respiration: Anaerobic Processes|MSU HHMI First Year Online Biology|Cell Respiration: ETC|/res/msu/bio/respiration/respir_415.html|acetyl,aerobic,anaerobic,cellular,chain,coa,cycle,electron,fermentation,glycolysis,krebs,respiration,transport|current||This page is part of a unit on the electron transport chain.  This page describes anaerobic respiration in brief detail.|html|seniso|2001-09-10 17:35:02|2002-06-24 14:46:21|bio@msu (Michigan State University)|default
Aerobic or Anaerobic?|MSU HHMI First Year Online Biology|Cell Respiration: ETC|/res/msu/bio/respiration/respir_450.html|aerobic,anaerobic,chain,co,cycle,electron,fermentation,glycolysis,krebs,respiration,transport|current||This page is part of a unit describing cellular respiration.  This page provides an interactive exercise that distinguishes the differences between aerobic and anaerobic respiration.|html|seniso|2001-09-10 17:42:31|2002-06-28 09:45:14|bio@msu (Michigan State University)|default
Introduction: metabolism and making ATP |MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/respir_100.html|aerobic,anaerobic,glycolysis,metabolism,respiration|current||This page is part of a unit describing the process of glycolysis. This page provides an introduction to the unit and a brief definition of the terms aerobic and anaerobic.|html|seniso|2001-09-03 20:31:46|2002-06-28 10:33:11|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Glycolysis: Addition of Phosphates|MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/respir_201b.html|phosphates,excercise,glycolysis,respiration|current||This page is part of a unit describing the process of glycolysis.  This page provides an interactive exercise that checks the position of phosphates during glycolysis.  This page also contains links to other interactive glycolysis exercises.|html|seniso|2001-09-03 21:21:12|2001-09-03 21:30:48|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Introduction to the Krebs Cycle|MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/respir_220.html|cycle,glycolysis,krebs,pyruvate,respiration|current||This page is part of a unit on the Krebs cycle.  This page provides the introduction to the unit by presenting the Krebs cycle in relation to glycolysis.|html|seniso|2001-09-09 22:42:09|2002-06-28 10:00:41|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
What's to become of the NADH and FADH2?|MSU HHMI First Year Online Biology|Bio Information, Cell Respiration: ETC|/res/msu/bio/respiration/respir_500.html|chain,cycle,electron,fad,fadh,glycolysis,krebs,nad,nadh,respiration,transport|current||This page is part of a unit on the electron transport chain.  This page provides an introduction to the unit by describing a brief overview of the process. |html|seniso|2001-09-10 00:05:26|2002-06-28 09:47:58|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Genes to Proteins: Transcription,  Identification Exercise |MSU HHMI First Year Online Biology|Genes to Proteins: Transcription|/res/msu/bio/trans/tranexercise.htm|gene,dna, rna, protein,transcription|current||This webpage is part of a chapter on transcription.  This page contains an interactive FLASH identification exercise that identifies the components of transcription.  |htm|seniso|2001-08-14 15:43:26|2001-08-14 15:43:26|bio@msu (Michigan State University)|default
Identification Exercise|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/trans/exercise.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/trans/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Genes to Proteins: Translation: Objectives|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/trans/trans_050.html|gene,translation,protein,nucleotide,proteins,dna|current||This webpage is part of a unit on translation.  This page describes the objectives for the unit.|html|seniso|2001-08-20 11:09:33|2001-08-20 11:12:33|bio@msu (Michigan State University)|default
Genes to Proteins: Translation: Components of Translation|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/trans/trans_340.html|rna,rrna,mrna,translation,protein,gene,trna,ribosome|current||This webpage is part of a unit on translation.  This page describes the major  components of translation.  There is also a graphic depicting the process of translation.|html|seniso|2001-08-20 11:14:25|2002-02-12 11:00:36|bio@msu (Michigan State University)|default
Genes to Proteins: Translation: Eukaryotic vs. Prokaryotic (bacterial) Ribosomes|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/trans/transl_310.html|rnas,subunits,unit,rna,ribosomal,rrna,function,mrna,translation,ribosomes,subunit,functional,ribosome,trnas|current||This webpage is part of a unit on translation.  This page describes the structure of the ribosome and is linked to another page which describes the difference between eukaryotic and prokaryotic ribosomes.|html|seniso|2001-08-20 11:20:38|2002-02-12 11:30:24|bio@msu (Michigan State University)|default
Genes to Proteins: Translation: Transfer RNA|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/trans/trans_315.html|rnas,nucleotide,rna,ribosomal,proteins,mrna,translation,protein,structure,ribosomes,trna,transfer|current||This webpage is part of a unit on translation.  This page describes the structure of the transfer RNA.|html|seniso|2001-08-20 11:32:29|2002-02-12 11:30:47|bio@msu (Michigan State University)|default
Genes to Proteins: Translation: The mRNA Codon|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/trans/trans_320.html|met,rna,methionine,rrna,triplet,mrna,translation,protein,codons,codon,ribosome|current||This webpage is part of a unit on translation.  This page provides a breif description of the structure and function of a codon.|html|seniso|2001-08-20 11:43:28|2002-02-14 15:40:42|bio@msu (Michigan State University)|default
The Process of Translation|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/trans/transl_870.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Genes to Proteins: Translation: Summary of Translation and the Case of Cystic fibrosis|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/trans/trans_350.html|nucleotide,rna,cystic,rrna,cftr,dna,translation,protein,ribosomes,codon,gene,trna,ribosome,fibrosis|current||This page is part of a unit on translation.  This page provides a summary of the process of translation and a wrap up for the unit.|html|seniso|2001-08-20 12:16:38|2002-02-12 12:22:59|bio@msu (Michigan State University)|default
Genes to Proteins: Translation:Eukaryotic vs. Prokaryotic (bacterial) Ribosomes|MSU HHMI First Year Online Biology|Bio Information, Genes to Proteins: Translation|/res/msu/bio/trans/trans_370.html|protein,rnas,ribosomes,subunit,rna,eukaryotic,bacterial,bacteria,ribosome,ribosomal,rrna,prokaryotic,transfer|current||This webpage is part of a unit on translation.  This page describes the difference between eukaryotic and prokaryotic ribosomes.|html|seniso|2001-08-20 11:28:58|2001-08-20 11:31:30|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Transcription - LBS145 F99|/res/msu/bio/transcr/graphics/25ntpromoter.gif||current|||gif|seniso|2001-12-03 13:14:40|2001-12-03 13:14:40|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/default||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Genes to Proteins: Transcription, DNA to RNA to Protein|MSU HHMI First Year Online Biology|Genes to Proteins: Transcription|/res/msu/bio/transcr/transcr_801.html|dogma,rna,dna,protein,gene,transcription|current||This webpage is part of a chapter on transcription.  This page presents the central dogma and provides an overview of the process of transcription and translation.|html|seniso|2001-08-14 15:09:25|2001-12-03 13:21:08|bio@msu (Michigan State University)|default
Genes to Protein: Transcription, Objectives|MSU HHMI First Year Online Biology|Transcription|/res/msu/bio/transcr/transcr_100.html|dogma,rna,dna,protein,transcription,translation|current||This webpage is part of a chapter on transcription.  This page provides the chapter objectives for the unit.|html|seniso|2001-08-14 15:11:58|2002-03-29 16:15:47|bio@msu (Michigan State University)|default
Genes to Proteins: Transcription, Summary|MSU HHMI First Year Online Biology|Genes to Proteins: Transcription|/res/msu/bio/transcr/transcr_600.html|translation,protein,gene,polymerase,transciption,rna,amino,nucleoside,acid,dna|current|corrected spelling errors|This webpage is part of a chapter on transcription.  This page contains a summary and overview of the process of transcription.  |html|seniso|2001-08-14 15:50:36|2002-03-31 10:00:17|bio@msu (Michigan State University)|default
Genes to Proteins: Transcription, RNA Processing |MSU HHMI First Year Online Biology|Transcription|/res/msu/bio/transcr/transl_300.html|cap,protein,poly,capping,gene,transcript,intron,rna,exon,eukaryotic,tail,splicing,mrna,transcription|current||This webpage is part of a chapter on transcription.  This page contains a detailed description of the processing of the functional mRNA.|html|seniso|2001-08-14 15:53:56|2002-03-31 10:27:30|bio@msu (Michigan State University)|default
DNA vs. RNA|MSU HHMI First Year Online Biology|Bio Information, Transcription - LBS145 F99|/res/msu/bio/transcr/problems/dnarna.problem|bases,purine,nucleotide,rna,guanine,cytosine,dna,base,polymer,uracil,nucleotides,thymine,transcription,ribonucleic,deoxyribose,pyrimidine,deoxyribonucleic,adenine,phosphate,ribose,nitrogenous,nucleoside,acid|current|Corrected error in nomenclature - nucleoside vs. nucleotide.|This problem page is part of a chapter on transcription.  This page identifies the different parts of DNA and RNA.|problem|seniso|2001-12-03 14:29:40|2002-03-29 16:20:15|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Transcription - LBS145 F99|/res/msu/bio/transcr/problems/DNAtoRNA.problem|rna,dna,direction,polymerase,transcription,transcript|current|||problem|seniso|2002-02-11 09:42:47|2002-03-29 12:27:35|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Transcription Process|MSU HHMI First Year Online Biology|Bio Information, Transcription - LBS145 F99|/res/msu/bio/transcr/problems/transcriptprocess.problem|protein,direction,components,component,subunits,nucleotide,product,molecule,rna,molecules,proteins,transcription,dna|current|||problem|seniso|2002-02-11 09:59:45|2002-03-31 10:36:56|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Genes to Proteins: Transcription, Termination of Transcription|MSU HHMI First Year Online Biology|Genes to Proteins: Transcription|/res/msu/bio/transcr/transcr_835.html|protein,termination,polymerase,rna,transcription,dna|current||This webpage is part of a chapter on transcription.  This page provides a continued discussion of the growing RNA strand and the formation of a mRNA strand.  There is also a movie showing the termination of transcription.|html|seniso|2001-08-14 15:38:04|2002-03-31 09:41:10|bio@msu (Michigan State University)|default
Genes to Proteins: Transcription, Polarity: 5' - 3' directionality|MSU HHMI First Year Online Biology|Genes to Proteins: Transcription|/res/msu/bio/transcr/transcr_830.html|polarity,protein,nucleotides,transcription|current||This webpage is part of a chapter on transcription.  This page contains a description of polarity.  There is also a graphic showing the polarity of the growing and template strands.   |html|seniso|2001-08-14 15:46:44|2002-02-12 10:38:57|bio@msu (Michigan State University)|default
Overview|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_800b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Central Dogma|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_801b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Three types of RNA|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_802c.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
RNA-Polymerase|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_815b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Transcription - LBS145 F99|/res/msu/bio/transcr/problems/glrna2.html||current||This page is used as a pop-up window.|html|seniso|2001-12-03 13:57:19|2001-12-03 14:16:09|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Transcription - LBS145 F99|/res/msu/bio/transcr/problems/glnucleoside.html||current|||html|seniso|2001-12-03 14:14:10|2001-12-03 14:14:10|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Template Strand|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_820b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Growing RNA Strand|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_825b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Polarity|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_830b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Transcription Stops|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_835b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
RNA Released|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_840b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
DNA Recombines|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_845b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Transcription Products|MSU HHMI First Year Online Biology|Transcription - LBS145 F99|/res/msu/bio/transcr/transcr_850b.html||current||||seniso|1969-12-31 19:00:00|1969-12-31 19:00:00|bio@msu (Michigan State University)|default
Genes to Proteins:Transcription & Translation Activity|MSU HHMI First Year Online Biology|Genes to Proteins: Translation|/res/msu/bio/transcr/trans_861.html|macromedia,genes,proteins,translation,protein,activity,gene,shockwave,transcription|current||This page is part of a unit on translation.  This page contains an interactive game demonstrating the process of transcription and translation.|html|seniso|2001-08-20 12:02:17|2002-02-12 12:04:42|bio@msu (Michigan State University)|default
|Jiatyan Chen%20, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/jiatyan/question1.problem||current|||problem|seniso|2002-02-19 15:19:10|2002-02-19 15:19:10|bio@msu, bio@msu (Michigan State University)|default
BUS 309|Cheri Speier|Business|/res/msu/cspeier/bus309-fall01.sequence||current||Top-level sequence for BUS 309.  Fall semester, 2001 at Michigan State University.|sequence|seniso|2001-07-11 13:06:03|2001-07-13 13:07:30|cspeier@msu|default
CBI Demo:  Top-level Map|Alex Sakharuk||/res/msu/sasha/cbi-demo.sequence||current|||sequence|seniso|2001-07-19 14:52:22|2001-07-20 08:50:46|sasha@msu|default
Module 155|Alex Sakharuk||/res/msu/sasha/m155unit.xml||current|||xml|seniso|2001-07-19 15:47:46|2001-07-19 15:47:46|sasha@msu|default
Module 180|Alex Sakharuk||/res/msu/sasha/m180unit.xml||current|||xml|seniso|2001-07-19 15:54:28|2001-07-19 15:54:28|sasha@msu|default
Module 212|Alex Sakharuk||/res/msu/sasha/m212unit.xml||current|||xml|seniso|2001-07-19 15:55:13|2001-07-19 15:55:13|sasha@msu|default
Module 220|Alex Sakharuk||/res/msu/sasha/m220unit.xml||current|||xml|seniso|2001-07-19 15:56:04|2001-07-19 15:56:04|sasha@msu|default
Module 221|Alex Sakharuk||/res/msu/sasha/m221unit.xml||current|||xml|seniso|2001-07-19 15:56:35|2001-07-19 15:56:35|sasha@msu|default
Module 222|Alex Sakharuk||/res/msu/sasha/m222unit.xml||current|||xml|seniso|2001-07-19 15:57:08|2001-07-19 15:57:08|sasha@msu|default
Module 223|Alex Sakharuk||/res/msu/sasha/m223unit.xml||current|||xml|seniso|2001-07-19 16:03:43|2001-07-19 16:03:43|sasha@msu|default
T400 exam form|Alex Sakharuk||/res/msu/sasha/t400form.xml||current|||xml|seniso|2001-07-19 16:06:10|2001-07-19 16:06:10|sasha@msu|default
T400 exam survey|Alex Sakharuk||/res/msu/sasha/t400survey.xml||current|||xml|seniso|2001-07-19 16:06:50|2001-07-19 16:06:50|sasha@msu|default
Module 411|Alex Sakharuk||/res/msu/sasha/m411unit.xml||current|||xml|seniso|2001-07-19 16:11:02|2001-07-19 16:11:02|sasha@msu|default
T400 exam form|Alex Sakharuk||/res/msu/sasha/t450form.xml||current|||xml|seniso|2001-07-19 16:11:44|2001-07-19 16:11:44|sasha@msu|default
T450 exam survey|Alex Sakharuk||/res/msu/sasha/t450survey.xml||current|||xml|seniso|2001-07-19 16:12:13|2001-07-19 16:12:13|sasha@msu|default
T400 sequence|Alex Sakharuk||/res/msu/sasha/t400block.sequence||current|||sequence|seniso|2001-07-19 16:12:47|2001-07-20 10:38:13|sasha@msu|default
Module 419|Alex Sakharuk||/res/msu/sasha/m419unit.xml||current|||xml|seniso|2001-07-19 16:13:37|2001-07-19 16:13:37|sasha@msu|default
Module 420|Alex Sakharuk||/res/msu/sasha/m420unit.xml||current|||xml|seniso|2001-07-19 16:14:05|2001-07-19 16:14:05|sasha@msu|default
T451 exam survey|Alex Sakharuk||/res/msu/sasha/t451survey.xml||current|||xml|seniso|2001-07-19 16:14:40|2001-07-19 16:14:40|sasha@msu|default
T451 exam form|Alex Sakharuk||/res/msu/sasha/t451form.xml||current|||xml|seniso|2001-07-19 16:15:18|2001-07-19 16:15:18|sasha@msu|default
T450 block|Alex Sakharuk||/res/msu/sasha/t450block.sequence||current|||sequence|seniso|2001-07-19 16:21:57|2001-07-20 10:42:25|sasha@msu|default
U222 exam survey|Alex Sakharuk||/res/msu/sasha/u222survey.xml||current|||xml|seniso|2001-07-20 07:49:00|2001-07-20 08:30:08|sasha@msu|default
T451 exam block|Alex Sakharuk||/res/msu/sasha/t451block.sequence||current|||sequence|seniso|2001-07-20 07:51:35|2001-07-20 07:51:35|sasha@msu|default
Module 421|Alex Sakharuk||/res/msu/sasha/m421unit.xml||current|||xml|seniso|2001-07-20 07:52:16|2001-07-20 07:52:16|sasha@msu|default
Module 422|Alex Sakharuk||/res/msu/sasha/m422unit.xml||current|||xml|seniso|2001-07-20 07:53:09|2001-07-20 07:53:09|sasha@msu|default
T452 exam form|Alex Sakharuk||/res/msu/sasha/t452form.xml||current|||xml|seniso|2001-07-20 07:53:59|2001-07-20 07:53:59|sasha@msu|default
T452 exam survey|Alex Sakharuk||/res/msu/sasha/t452survey.xml||current|||xml|seniso|2001-07-20 07:54:29|2001-07-20 07:54:29|sasha@msu|default
T452 exam block|Alex Sakharuk||/res/msu/sasha/T452block.sequence||current|||sequence|seniso|2001-07-20 07:56:32|2001-07-20 10:55:02|sasha@msu|default
Module 423|Alex Sakharuk||/res/msu/sasha/m423unit.xml||current|||xml|seniso|2001-07-20 07:57:22|2001-07-20 07:57:22|sasha@msu|default
T453 exam survey|Alex Sakharuk||/res/msu/sasha/t453survey.xml||current|||xml|seniso|2001-07-20 07:58:08|2001-07-20 07:58:08|sasha@msu|default
T453 exam form|Alex Sakharuk||/res/msu/sasha/t453form.xml||current|||xml|seniso|2001-07-20 07:58:43|2001-07-20 07:58:43|sasha@msu|default
T453 exam block|Alex Sakharuk||/res/msu/sasha/T453block.sequence||current|||sequence|seniso|2001-07-20 08:00:23|2001-07-20 10:55:33|sasha@msu|default
Module 424|Alex Sakharuk||/res/msu/sasha/m424unit.xml||current|||xml|seniso|2001-07-20 08:01:01|2001-07-20 08:01:01|sasha@msu|default
Module 425|Alex Sakharuk||/res/msu/sasha/m425unit.xml||current|||xml|seniso|2001-07-20 08:01:33|2001-07-20 08:01:33|sasha@msu|default
T454 exam survey|Alex Sakharuk||/res/msu/sasha/t454survey.xml||current|||xml|seniso|2001-07-20 08:02:25|2001-07-20 08:02:25|sasha@msu|default
T454 exam form|Alex Sakharuk||/res/msu/sasha/t454form.xml||current|||xml|seniso|2001-07-20 08:02:58|2001-07-20 08:02:58|sasha@msu|default
T454 exam block|Alex Sakharuk||/res/msu/sasha/t454block.sequence||current|||sequence|seniso|2001-07-20 08:05:02|2001-07-20 10:56:03|sasha@msu|default
Module 426|Alex Sakharuk||/res/msu/sasha/m426unit.xml||current|||xml|seniso|2001-07-20 08:05:53|2001-07-20 08:05:53|sasha@msu|default
Module 427|Alex Sakharuk||/res/msu/sasha/m427unit.xml||current|||xml|seniso|2001-07-20 08:06:22|2001-07-20 08:06:22|sasha@msu|default
Module 428|Alex Sakharuk||/res/msu/sasha/m428unit.xml||current|||xml|seniso|2001-07-20 08:07:03|2001-07-20 08:07:03|sasha@msu|default
Module 429|Alex Sakharuk||/res/msu/sasha/m429unit.xml||current|||xml|seniso|2001-07-20 08:07:31|2001-07-20 08:07:31|sasha@msu|default
Module 227|Alex Sakharuk||/res/msu/sasha/m227unit.xml||current|||xml|seniso|2001-07-20 08:08:04|2001-07-20 08:08:04|sasha@msu|default
Module 260|Alex Sakharuk||/res/msu/sasha/m260unit.xml||current|||xml|seniso|2001-07-20 08:08:49|2001-07-20 08:08:49|sasha@msu|default
Module 263|Alex Sakharuk||/res/msu/sasha/m263unit.xml||current|||xml|seniso|2001-07-20 08:09:32|2001-07-20 08:09:32|sasha@msu|default
Module 230|Alex Sakharuk||/res/msu/sasha/m230unit.xml||current|||xml|seniso|2001-07-20 08:10:04|2001-07-20 08:10:04|sasha@msu|default
Module 240|Alex Sakharuk||/res/msu/sasha/m240unit.xml||current|||xml|seniso|2001-07-20 08:10:32|2001-07-20 08:10:32|sasha@msu|default
Module 246|Alex Sakharuk||/res/msu/sasha/m246unit.xml||current|||xml|seniso|2001-07-20 08:11:01|2001-07-20 08:11:01|sasha@msu|default
Module 264|Alex Sakharuk||/res/msu/sasha/m264unit.xml||current|||xml|seniso|2001-07-20 08:11:29|2001-07-20 08:11:29|sasha@msu|default
Module 265|Alex Sakharuk||/res/msu/sasha/m265unit.xml||current|||xml|seniso|2001-07-20 08:12:06|2001-07-20 08:12:06|sasha@msu|default
T455 exam survey|Alex Sakharuk||/res/msu/sasha/t455survey.xml||current|||xml|seniso|2001-07-20 08:12:42|2001-07-20 08:12:42|sasha@msu|default
T455 exam form|Alex Sakharuk||/res/msu/sasha/t455form.xml||current|||xml|seniso|2001-07-20 08:13:21|2001-07-20 08:13:21|sasha@msu|default
T455 exam block|Alex Sakharuk||/res/msu/sasha/t455block.sequence||current|||sequence|seniso|2001-07-20 08:15:21|2001-07-20 10:56:35|sasha@msu|default
T456 exam survey|Alex Sakharuk||/res/msu/sasha/t456survey.xml||current|||xml|seniso|2001-07-20 08:16:00|2001-07-20 08:16:00|sasha@msu|default
T456 exam form|Alex Sakharuk||/res/msu/sasha/t456form.xml||current|||xml|seniso|2001-07-20 08:16:31|2001-07-20 08:16:31|sasha@msu|default
T456 exam block|Alex Sakharuk||/res/msu/sasha/t456block.sequence||current|||sequence|seniso|2001-07-20 08:18:22|2001-07-20 10:57:06|sasha@msu|default
T67 exam form|Alex Sakharuk||/res/msu/sasha/t67form.xml||current|||xml|seniso|2001-07-20 08:19:05|2001-07-20 08:19:05|sasha@msu|default
T67 exam survey|Alex Sakharuk||/res/msu/sasha/t67survey.xml||current|||xml|seniso|2001-07-20 08:19:35|2001-07-20 08:19:35|sasha@msu|default
T67 exam block|Alex Sakharuk||/res/msu/sasha/t67block.sequence||current|||sequence|seniso|2001-07-20 08:21:24|2001-07-20 10:57:41|sasha@msu|default
U220 exam survey|Alex Sakharuk||/res/msu/sasha/u220survey.xml||current|||xml|seniso|2001-07-20 08:21:52|2001-07-20 08:21:52|sasha@msu|default
U220 exam form|Alex Sakharuk||/res/msu/sasha/u220form.xml||current|||xml|seniso|2001-07-20 08:22:27|2001-07-20 08:22:27|sasha@msu|default
U220 exam block|Alex Sakharuk||/res/msu/sasha/u220block.sequence||current|||sequence|seniso|2001-07-20 08:24:06|2001-07-20 10:58:10|sasha@msu|default
T64 exam form|Alex Sakharuk||/res/msu/sasha/t64form.xml||current|||xml|seniso|2001-07-20 08:25:40|2001-07-20 08:25:40|sasha@msu|default
T64 exam survey|Alex Sakharuk||/res/msu/sasha/t64survey.xml||current|||xml|seniso|2001-07-20 08:26:09|2001-07-20 08:26:09|sasha@msu|default
T64 exam block|Alex Sakharuk||/res/msu/sasha/t64block.sequence||current|||sequence|seniso|2001-07-20 08:28:09|2001-07-20 10:58:40|sasha@msu|default
U222 exam form|Alex Sakharuk||/res/msu/sasha/u222form.xml||current|||xml|seniso|2001-07-20 08:28:57|2001-07-20 08:28:57|sasha@msu|default
U222 exam block|Alex Sakharuk||/res/msu/sasha/u222block.sequence||current|||sequence|seniso|2001-07-20 08:31:48|2001-07-20 11:00:54|sasha@msu|default
T65 exam survey|Alex Sakharuk||/res/msu/sasha/t65survey.xml||current|||xml|seniso|2001-07-20 08:32:27|2001-07-20 08:32:27|sasha@msu|default
T65 exam form|Alex Sakharuk||/res/msu/sasha/t65form.xml||current|||xml|seniso|2001-07-20 08:32:59|2001-07-20 08:32:59|sasha@msu|default
T65 exam block|Alex Sakharuk||/res/msu/sasha/t65block.sequence||current|||sequence|seniso|2001-07-20 08:34:47|2001-07-20 11:01:22|sasha@msu|default
U230 exam form|Alex Sakharuk||/res/msu/sasha/u230form.xml||current|||xml|seniso|2001-07-20 08:35:18|2001-07-20 08:35:18|sasha@msu|default
U230 exam survey|Alex Sakharuk||/res/msu/sasha/u230survey.xml||current|||xml|seniso|2001-07-20 08:35:47|2001-07-20 08:35:47|sasha@msu|default
U230 exam block|Alex Sakharuk||/res/msu/sasha/u230block.sequence||current|||sequence|seniso|2001-07-20 08:37:08|2001-07-20 11:01:49|sasha@msu|default
T68 exam survey|Alex Sakharuk||/res/msu/sasha/t68survey.xml||current|||xml|seniso|2001-07-20 08:37:39|2001-07-20 08:37:39|sasha@msu|default
T68 exam form|Alex Sakharuk||/res/msu/sasha/t68form.xml||current|||xml|seniso|2001-07-20 08:38:04|2001-07-20 08:38:04|sasha@msu|default
T68 exam block|Alex Sakharuk||/res/msu/sasha/t68block.sequence||current|||sequence|seniso|2001-07-20 08:39:53|2001-07-20 11:02:13|sasha@msu|default
T70 exam survey|Alex Sakharuk||/res/msu/sasha/t70survey.xml||current|||xml|seniso|2001-07-20 08:40:22|2001-07-20 08:40:22|sasha@msu|default
T70 exam form|Alex Sakharuk||/res/msu/sasha/t70form.xml||current|||xml|seniso|2001-07-20 08:40:50|2001-07-20 08:40:50|sasha@msu|default
T70 exam block|Alex Sakharuk||/res/msu/sasha/t70block.sequence||current|||sequence|seniso|2001-07-20 08:42:41|2001-07-20 11:02:37|sasha@msu|default
T400 exam form|Alex Sakharuk||/res/msu/sasha/t400form.form||current|||form|seniso|2001-07-20 08:40:22|2001-07-20 10:14:06|sasha@msu|default
T400 exam form|||/res/msu/sasha/t400form.exam||current|||exam|seniso|2001-07-20 10:35:49|2001-07-20 10:35:49||default
t400 exam |Alex Sakharuk||/res/msu/sasha/t400exam.problem||current|||problem|seniso|2001-07-20 10:37:18|2001-07-20 10:37:18|sasha@msu|default
t450 exam|Alex Sakharuk||/res/msu/sasha/t450form.problem||current|||problem|seniso|2001-07-20 10:41:45|2001-07-20 10:41:45|sasha@msu|default
t451 exam|Alex Sakharuk||/res/msu/sasha/t451form.problem||current|||problem|seniso|2001-07-20 10:47:51|2001-07-20 10:47:51|sasha@msu|default
t452 exam|Alex Sakharuk||/res/msu/sasha/t452form.problem||current|||problem|seniso|2001-07-20 10:48:15|2001-07-20 10:48:15|sasha@msu|default
t453 exam|Alex Sakharuk||/res/msu/sasha/t453form.problem||current|||problem|seniso|2001-07-20 10:48:40|2001-07-20 10:48:40|sasha@msu|default
T454 exam|Alex Sakharuk||/res/msu/sasha/t454form.problem||current|||problem|seniso|2001-07-20 10:49:05|2001-07-20 10:49:05|sasha@msu|default
t455 exam|Alex Sakharuk||/res/msu/sasha/t455form.problem||current|||problem|seniso|2001-07-20 10:49:30|2001-07-20 10:49:30|sasha@msu|default
t456 exam|Alex Sakharuk||/res/msu/sasha/t456form.problem||current|||problem|seniso|2001-07-20 10:50:14|2001-07-20 10:50:14|sasha@msu|default
t67 exam|Alex Sakharuk||/res/msu/sasha/t67form.problem||current|||problem|seniso|2001-07-20 10:50:39|2001-07-20 10:50:39|sasha@msu|default
U220 exam|Alex Sakharuk||/res/msu/sasha/u220form.problem||current|||problem|seniso|2001-07-20 10:51:02|2001-07-20 10:51:02|sasha@msu|default
T64 exam|Alex Sakharuk||/res/msu/sasha/t64form.problem||current|||problem|seniso|2001-07-20 10:51:26|2001-07-20 10:51:26|sasha@msu|default
U222 exam|Alex Sakharuk||/res/msu/sasha/u222form.problem||current|||problem|seniso|2001-07-20 10:51:47|2001-07-20 10:51:47|sasha@msu|default
u230 exam|Alex Sakharuk||/res/msu/sasha/u230form.problem||current|||problem|seniso|2001-07-20 10:52:10|2001-07-20 10:52:10|sasha@msu|default
t65 exam|Alex Sakharuk||/res/msu/sasha/t65form.problem||current|||problem|seniso|2001-07-20 10:52:58|2001-07-20 10:52:58|sasha@msu|default
t68 exam|Alex Sakharuk||/res/msu/sasha/t68form.problem||current|||problem|seniso|2001-07-20 10:53:28|2001-07-20 10:53:28|sasha@msu|default
t70 exam|Alex Sakharuk||/res/msu/sasha/t70form.problem||current|||problem|seniso|2001-07-20 10:54:03|2001-07-20 10:54:03|sasha@msu|default
Mein toller Test|Frank Schweickert||/res/msu/schweick/mycourse.sequence||current|||sequence|sgeiso|2001-07-28 10:16:30|2001-07-28 11:32:10|schweick@msu|default
Neue Test Seite|Frank Schweickert||/res/msu/schweick/neueseite.html|world|current|||html|sgeiso|2001-07-28 10:33:56|2001-07-28 10:33:56|schweick@msu|default
add|F F S 66|This is about adding numbers|/res/msu/schweick/test.problem|sum|current|my note|This is rather instructive.|problem|sgeiso|2001-07-28 10:49:10|2001-07-28 10:49:10|schweick@msu|noncom
PhysletBuilder|F F S 66||/res/msu/schweick/hurz/opticsbuilder152.html|physlets|current|||html|sgeiso|2001-07-28 12:14:00|2001-07-28 12:14:00|schweick@msu|default
Quiz 1|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz1.sequence||current|||sequence|notset|2001-09-03 10:40:08|2001-09-03 10:40:08|vandomelen@msu|default
Quiz 10|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz10.sequence||current|||sequence|notset|2001-09-03 10:40:19|2001-09-03 10:40:19|vandomelen@msu|default
Quiz 11|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz11.sequence||current|||sequence|notset|2001-09-03 10:40:29|2001-09-03 10:40:29|vandomelen@msu|default
Quiz 12|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz12.sequence||current|||sequence|notset|2001-09-03 10:40:47|2001-09-03 10:40:47|vandomelen@msu|default
Quiz 1a|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz1a.problem|graphs,graph|current|||problem|notset|2001-09-03 10:41:03|2001-09-06 13:20:51|vandomelen@msu|default
Quiz 1b|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz1b.problem|bumper,gravity,pasco,accelerate,acceleration,cart,friction|current|||problem|notset|2001-09-03 10:41:19|2001-09-06 13:21:06|vandomelen@msu|default
Quiz 2|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz2.sequence||current|||sequence|notset|2001-09-03 10:41:53|2001-09-03 10:41:53|vandomelen@msu|default
Quiz 2a|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz2a.problem|friction,velocity|current|||problem|notset|2001-09-03 10:42:05|2001-09-06 13:21:29|vandomelen@msu|default
Quiz 3|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz3.sequence||current|||sequence|notset|2001-09-03 10:42:21|2001-09-03 10:42:21|vandomelen@msu|default
Quiz 4|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz4.sequence||current|||sequence|notset|2001-09-03 10:42:37|2001-09-03 10:42:37|vandomelen@msu|default
Quiz 5|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz5.sequence||current|||sequence|notset|2001-09-03 10:42:48|2001-09-03 10:42:48|vandomelen@msu|default
Quiz 6|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz6.sequence||current|||sequence|notset|2001-09-03 10:43:00|2001-09-03 10:43:00|vandomelen@msu|default
Quiz 7|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz7.sequence||current|||sequence|notset|2001-09-03 10:43:12|2001-09-03 10:43:12|vandomelen@msu|default
Quiz 8|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz8.sequence||current|||sequence|notset|2001-09-03 10:43:24|2001-09-03 10:43:24|vandomelen@msu|default
Quiz 9|Dave Van Domelen||/res/msu/vandomelen/quizzes/quiz9.sequence||current|||sequence|notset|2001-09-03 10:43:35|2001-09-03 10:43:35|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz10a.problem|submerged,newtons,tension,convert,displaces,density,liquid,units|current|||problem|notset|2001-09-06 13:20:25|2001-09-06 13:20:25|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz2b.problem|acceleration,friction,ramp,force,coefficient,weight|current|||problem|notset|2001-09-06 13:21:46|2001-09-06 13:21:46|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz10b.problem|acceleration,mass,law,hookes,gravity,force,spring,harmonic,frequency|current|||problem|notset|2001-09-06 13:22:08|2001-09-06 13:22:08|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz11a.problem|period,spring,oscillates,frequency|current|||problem|notset|2001-09-06 13:22:29|2001-09-06 13:22:29|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz11b.problem|tension,wave,harmonic,frequency|current|||problem|notset|2001-09-06 13:22:47|2001-09-06 13:22:47|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz3a.problem|kinetic,coefficient,friction,gravity,force|current|||problem|notset|2001-09-06 13:23:04|2001-09-06 13:23:04|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz3b.problem|kinetic,energy,potential|current|||problem|notset|2001-09-06 13:23:25|2001-09-06 13:23:25|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz4a.problem|kinetic,energy|current|||problem|notset|2001-09-06 13:23:45|2001-09-06 13:23:45|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz4b.problem|gravity,acceleration,resistance,velocity,terminal,falling|current|||problem|notset|2001-09-06 13:24:04|2001-09-06 13:24:04|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz5a.problem|air,resistance,velocity,terminal|current|||problem|notset|2001-09-06 13:24:25|2001-09-06 13:24:25|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz5b.problem|carts,coefficient,cart,friction,inelastic,collision|current|||problem|notset|2001-09-06 13:24:48|2001-09-06 13:24:48|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz6a.problem|carts,speed,collide,velocities,cart,collision,velocity|current|||problem|notset|2001-09-06 13:25:08|2001-09-06 13:25:08|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz6b.problem|tension,string,pendulum|current|||problem|notset|2001-09-06 13:25:28|2001-09-06 13:25:28|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz7a.problem|string,pendulum|current|||problem|notset|2001-09-06 13:25:50|2001-09-06 13:25:50|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz7b.problem|angular,force,rotational,inertia,centripetal,velocity|current|||problem|notset|2001-09-06 13:26:11|2001-09-06 13:26:11|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz8a.problem|moment,inertia,rotates,rotating|current|||problem|notset|2001-09-06 13:26:37|2001-09-06 13:26:37|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz8b.problem|ice,temperature,water|current|||problem|notset|2001-09-06 13:26:56|2001-09-06 13:26:56|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz9a.problem|joules,energy,calorie|current|||problem|notset|2001-09-06 13:27:16|2001-09-06 13:27:16|vandomelen@msu|default
|Dave Van%20Domelen||/res/msu/vandomelen/quizzes/quiz9b.problem|submerged,force,weight,buoyant|current|||problem|notset|2001-09-06 13:27:41|2001-09-06 13:27:41|vandomelen@msu|default
General Discussion|astro|Astronomy|/res/msu/astro/general.html||current|||html|seniso|2001-11-30 15:28:20|2001-11-30 15:28:20|astro@msu|default
ISP 205 Main Sequence|astro@msu|Astronomy|/res/msu/astro/isp205.sequence||current||Main Sequence for ISP 205 at Michigan State.  ISP 205 is for non-science majors.|sequence|seniso|2001-11-30 15:38:29|2002-04-24 17:50:39|astro@msu|default
homework 2 sequence|Susan Simkin|astronomy|/res/msu/astro/HW2.sequence||current|||sequence|notset|2002-01-02 14:17:57|2002-01-13 22:09:00|astro@msu|default
intro to time and phases of the moon|Susan Simkin|astronomy|/res/msu/astro/hw2/HW-2.html|earth,orbit,sunlight,position,law,angular,orbital,eyes,degrees,sun,plane,deg,units|current|||html|seniso|2002-01-02 14:21:18|2002-01-13 22:05:18|astro@msu|default
Problwm 1-2|Susan Simkin|astronomy|/res/msu/astro/hw2/q1hw2.problem|summer,constellations,ecliptic,winter|current|||problem|seniso|2002-01-02 14:22:11|2002-01-17 10:31:46|astro@msu|default
Problem 2-2|Susan Simkin|astronomy|/res/msu/astro/hw2/q2hw2.problem|rise,sunrise,moon,moonrise,times,set,sun,moonset,sunset|current|||problem|seniso|2002-01-02 14:23:00|2002-01-17 10:31:59|astro@msu|default
Problem 3-2|Susan Simkin|astronomy|/res/msu/astro/hw2/q3hw2.problem|day,length|current|||problem|seniso|2002-01-02 14:23:49|2002-01-17 10:22:06|astro@msu|default
Problem 4-2|Susan Simkin|astronomy|/res/msu/astro/hw2/q4hw2.problem|socorro,lansing,washington,tampa,spokene,day,wa,daylight|current|||problem|seniso|2002-01-02 14:24:25|2002-01-17 10:22:19|astro@msu|default
Problem 5-2|Susan Simkin|astronomy|/res/msu/astro/hw2/q5hw2.problem|applet,orbit,picture,phase|current|||problem|seniso|2002-01-02 14:24:48|2002-01-13 22:06:15|astro@msu|default
Problem 6-2|Susan Simkin|astronomy|/res/msu/astro/hw2/q6hw2.problem|moon,phase|current|||problem|seniso|2002-01-02 14:25:12|2002-01-13 20:25:49|astro@msu|default
Homework 1 - ISP205|Susan Simkin|Astronomy|/res/msu/astro/HW1.sequence||current|||sequence|seniso|2002-01-04 16:43:17|2002-01-11 17:23:58|astro@msu|default
Sky Chart, HW1, AB|Susan Simkin|Astonomy|/res/msu/astro/hw1/ECL-AB.jpg||current||Image file|jpg|notset|2002-01-04 16:45:56|2002-01-04 16:45:56|astro@msu|default
Sky Chart, HW1-CD|Susan Simkin|Astronomy|/res/msu/astro/hw1/ECL-CD.jpg||current||Image file|jpg|notset|2002-01-04 16:46:46|2002-01-04 16:46:46|astro@msu|default
Sky Chart, HW1-EF|Susan Simkin|Astronomy|/res/msu/astro/hw1/ECL-EF.jpg||current||Image file|jpg|notset|2002-01-04 16:47:19|2002-01-04 16:47:19|astro@msu|default
Homework 1 Intro|Susan Simkin|Astronomy|/res/msu/astro/hw1/HW1-2.html||current|||html|seniso|2002-01-04 16:48:18|2002-01-04 16:48:18|astro@msu|default
UMA|Susan Simkin|Astronomy|/res/msu/astro/hw1/UMa1.JPG||current||Image file|JPG|seniso|2002-01-04 16:49:17|2002-01-11 16:30:28|astro@msu|default
CAS|Susan Simkin|Astronomy|/res/msu/astro/hw1/cas1.JPG||current||Image file|JPG|seniso|2002-01-04 16:49:46|2002-01-11 16:31:32|astro@msu|default
Circumpolar Constellations 1|Susan Simkin|Astronomy|/res/msu/astro/hw1/circ1.JPG||current||Image file|JPG|seniso|2002-01-04 16:50:21|2002-01-04 16:50:21|astro@msu|default
Polar Const 2|Susan Simkin|Astronomy|/res/msu/astro/hw1/circ2.JPG||current||Image file|JPG|seniso|2002-01-04 16:51:04|2002-01-04 16:51:04|astro@msu|default
Circ3|Susan Simkin|Astronomy|/res/msu/astro/hw1/circ3.JPG||current||image|JPG|notset|2002-01-04 16:54:40|2002-01-04 16:54:40|astro@msu|default
circ4|Susan Simkin|Astronomy|/res/msu/astro/hw1/circ4.JPG||current||image|JPG|notset|2002-01-04 16:55:07|2002-01-04 16:55:07|astro@msu|default
circ5|Susan Simkin|Astronomy|/res/msu/astro/hw1/circ5.JPG||current||image|JPG|notset|2002-01-04 16:55:30|2002-01-04 16:55:30|astro@msu|default
Orian|Susan Simkin|Astronomy|/res/msu/astro/hw1/oriph.jpg||current||image|jpg|notset|2002-01-04 16:56:22|2002-01-04 16:56:22|astro@msu|default
Problem 1|Susan Simkin|Astro|/res/msu/astro/hw1/q1hw1.problem|notation,scientific|current|||problem|seniso|2002-01-04 16:56:54|2002-01-05 19:00:14|astro@msu|default
Problem 2|Susan Simkin|Astro|/res/msu/astro/hw1/q2hw1.problem|distances|current|||problem|notset|2002-01-04 16:57:28|2002-01-05 19:19:04|astro@msu|default
Problem 3|Susan Simkin|Astro|/res/msu/astro/hw1/q3hw1.problem|constellations,constellation|current|||problem|seniso|2002-01-04 16:57:47|2002-01-11 16:47:08|astro@msu|default
Problem 4|Susan Simkin|Astro|/res/msu/astro/hw1/q4hw1.problem||current|||problem|notset|2002-01-04 16:58:08|2002-01-11 17:23:21|astro@msu|default
Problem 5|Susan Simkin|Astro|/res/msu/astro/hw1/q5hw1.problem|Identification,Star|current|||problem|seniso|2002-01-04 16:58:29|2002-01-06 17:42:57|astro@msu|default
Canis Major|Susan Simkin|Astro|/res/msu/astro/hw1/sirius1.jpg|Astro|current||image|jpg|notset|2002-01-04 16:59:05|2002-01-11 16:32:21|astro@msu|default
Ursa Majoris, Color|Susan Simkin|Astro|/res/msu/astro/hw1/umac2.JPG||current||image|JPG|notset|2002-01-04 16:59:35|2002-01-11 16:31:57|astro@msu|default
Problem 6|Susan Simkin|astronomy|/res/msu/astro/hw1/q6hw1.problem|celestial,clock,circumpolar|current|||problem|seniso|2002-01-05 18:35:06|2002-01-05 23:25:26|astro@msu|default
circ7|Susan Simkin|astronomy|/res/msu/astro/hw1/circ7.jpg|circumpolar,stars|current||image|jpg|seniso|2002-01-05 18:41:55|2002-01-05 18:41:55|astro@msu|default
circ8|Susan Simkin|astronomy|/res/msu/astro/hw1/circ8.jpg|circumpolar,stars|current||image|jpg|seniso|2002-01-05 18:43:52|2002-01-05 23:33:29|astro@msu|default
24 hr clock|Susan Simkin|astronomy|/res/msu/astro/hw1/clock.JPG||current||image|JPG|seniso|2002-01-05 18:44:57|2002-01-05 18:44:57|astro@msu|default
decc|Susan Simkin|astronomy|/res/msu/astro/hw1/decc.jpg|dec,constellations|current||image|jpg|seniso|2002-01-05 22:02:14|2002-01-05 22:02:14|astro@msu|default
aprc|Susan Simkin|astronomy|/res/msu/astro/hw1/aprc.jpg|april,constellations|current||image|jpg|seniso|2002-01-05 22:03:19|2002-01-05 22:03:19|astro@msu|default
aprc|Susan Simkin|astronomy|/res/msu/astro/hw1/febc.jpg|april,constellations|current||image|jpg|seniso|2002-01-05 22:04:17|2002-01-05 22:04:17|astro@msu|default
aprs|Susan Simkin|astronomy|/res/msu/astro/hw1/aprs.jpg|april,stars|current||image|jpg|seniso|2002-01-05 22:58:12|2002-01-05 23:08:22|astro@msu|default
decs|Susan Simkin|astronomy|/res/msu/astro/hw1/decs.jpg|Dec,Stars|current||image|jpg|seniso|2002-01-05 22:59:30|2002-01-05 22:59:30|astro@msu|default
febs|Susan Simkin|astronomy|/res/msu/astro/hw1/febs.jpg|Feb,stars|current||image|jpg|seniso|2002-01-05 23:00:29|2002-01-05 23:00:29|astro@msu|default
Intro HW1|Susan Simkin|astronomy|/res/msu/astro/hw1/HW1.html|tell,star,constellations,stars,circumpolar,diurnal|current|||html|seniso|2002-01-05 23:06:37|2002-01-17 10:52:38|astro@msu|default
|Matthew Hall||/res/msu/hallmat3/samples/G-host.pdb||current|||pdb|notset|2001-12-27 14:02:46|2001-12-27 14:02:46|hallmat3@msu|default
|Matthew Hall||/res/msu/hallmat3/samples/LT.pdb||current|||pdb|notset|2001-12-27 14:02:53|2001-12-27 14:02:53|hallmat3@msu|default
|Matthew Hall||/res/msu/hallmat3/samples/sample.pdf||current|||pdf|notset|2001-12-27 14:03:01|2001-12-27 14:03:01|hallmat3@msu|default
|Matthew Hall||/res/msu/hallmat3/samples/ship.png||current|||png|notset|2001-12-27 14:03:07|2001-12-27 14:03:07|hallmat3@msu|default
|Matthew Hall||/res/msu/hallmat3/samples/test.zip||current|||zip|notset|2001-12-27 14:03:12|2001-12-27 14:03:12|hallmat3@msu|default
|Matthew Hall||/res/msu/hallmat3/samples/test1.html||current|||html|notset|2001-12-27 14:03:18|2001-12-27 14:03:18|hallmat3@msu|default
|Matthew Hall||/res/msu/hallmat3/samples/test.fish||current|||fish|notset|2001-12-27 14:06:01|2001-12-27 14:06:01|hallmat3@msu|default
A Volume Problem|Andrew Chen|Mathematics|/res/msu/apcalc/example.problem|Calculus,Integration,volume|current|Please proofread this - especially check the math.|find the volume of a drinking glass, given the base's diameter, the rim's diameter, and the height.
 |problem|seniso|2001-12-27 14:16:14|2001-12-27 14:16:14|apcalc@msu|default
Derivative of Log(u)|P%2e%20K%2e Wong|Calculus|/res/msu/apcalc/wong/test2.problem|logarithm,derivative|current||testing construction of simple mathematical formula|problem|notset|2001-12-28 10:25:27|2001-12-28 10:25:27|apcalc@msu|default
Test 5|Adv Credit Calculus|Calculus|/res/msu/apcalc/wong/test5.problem||current|||problem|seniso|2002-01-03 16:24:49|2002-01-03 16:24:49|apcalc@msu|default
|Adv Credit Calculus||/res/msu/apcalc/wong/test6.problem||current|||problem|notset|2002-01-03 16:25:26|2002-01-03 16:25:26|apcalc@msu|default
logarithmic derivative|P%2e%20K%2e Wong||/res/msu/apcalc/wong/test7.problem|derivative,differentiation,log,logarithm|current|||problem|notset|2002-01-03 23:03:40|2002-08-06 12:10:15|apcalc@msu|default
Test Math Display|P%2e%20K%2e Wong|TeX formula display|/res/msu/apcalc/test.html|TeX,formulas,root|current||Examples of inline and display of formulas using TeX commands.|html|notset|2001-12-29 16:35:05|2001-12-29 16:35:05|apcalc@msu|default
|Adv Credit Calculus||/res/msu/apcalc/chenandr/formula1.problem||current|||problem|notset|2002-01-03 16:25:38|2002-01-03 16:25:38|apcalc@msu|default
|Adv Credit Calculus||/res/msu/apcalc/chenandr/mc1.problem||current|||problem|notset|2002-01-03 16:25:44|2002-01-03 16:25:44|apcalc@msu|default
logarithmic differentiation 1|P.K.Wong|Logarithm|/res/msu/apcalc/test7.problem|derivative,differentiation,log,logarithmic|current|test concept group problem||problem|notset|2002-01-10 11:06:16|2002-08-08 17:29:49|apcalc@msu|default
integration_1|P%2e%20K%2e Wong|Logarithm|/res/msu/apcalc/example3.problem|int,integral,logarithm|current|test string input problem||problem|notset|2002-01-10 11:35:13|2002-04-22 22:56:54|apcalc@msu|default
Fractions (add, subtract, divide)|Edwin Kashy||/res/msu/physicslib/devolibrary/type-math/fract-add-sub-div-p11.problem||current|||problem|seniso|2002-01-07 20:34:14|2002-09-22 12:37:09|physicslib@msu|default
Fractions (reduce)|Edwin Kashy||/res/msu/physicslib/devolibrary/type-math/fraction-rlt-235.problem||current|||problem|notset|1969-12-31 19:33:22|2002-09-22 12:40:17|physicslib@msu|default
Area of a Sphere|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/01_Math_1/msu-prob04.problem|area,radius,sphere,spherical,volume|current|||problem|seniso|2002-01-07 20:36:13|2002-08-11 14:54:43|physicslib@msu|default
Volume of a Sphere|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/01_Math_1/msu-prob07.problem|area,radius,sphere,spherical|current|||||1969-12-31 19:00:00|1969-12-31 19:00:00||
Area/Volume of a sphere|Edwin Kashy||/res/msu/physicslib/msuphysicslib/01_Math_1/links/balloon.html|length,area,volume,surface,units|current|||html|notset|2002-01-07 20:38:08|2002-01-14 17:08:21|physicslib@msu|default
Unit instructions|Edwin Kashy||/res/msu/physicslib/msuphysicslib/01_Math_1/links/UnitFmt.html||current|||html|notset|2002-01-07 20:38:44|2002-01-07 20:38:44|physicslib@msu|default
Numbers|Guy D Albertelli, Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/01_Math_1/msu-prob10.problem|multiplication,number|current|||problem|seniso|2002-01-07 20:39:02|2002-05-06 17:54:08|physicslib@msu|default
Calculator Skills|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/01_Math_1/msu-prob11.problem|notation,number,positive,power,scientific|current|||problem|seniso|2002-01-07 20:39:47|2002-08-11 14:40:02|physicslib@msu|default
Calculator skills|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/01_Math_1/msu-prob12.problem|data,division|current|||problem|seniso|2002-01-07 20:40:30|2002-05-07 08:35:20|physicslib@msu|default
Perimeter|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/01_Math_1/msu-prob13.problem|length,sides,units|current|||problem|seniso|2002-01-07 20:40:44|2002-09-24 11:08:59|physicslib@msu|default
Grade Calculation|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/01_Math_1/msu-prob17.problem|calculating,exam,calculations|current|||problem|seniso|2002-01-07 20:41:08|2002-05-07 08:36:24|physicslib@msu|default
System of Equations|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/02_Math_2_Trig/msu-prob13.problem|distance,quadratic,calculus,minimum|current|||problem|seniso|2002-01-07 20:41:58|2002-05-07 08:53:02|physicslib@msu|default
Speed of Vehicle|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/03_Units_Scaling/msu-prob22.problem|force,length,magnitude,newtons,number,power,speed,unit|current|||problem|seniso|2002-01-07 20:43:23|2002-08-11 14:36:07|physicslib@msu|default
Seven Arrows|Guy D Albertelli, Edwin Kashy||/res/msu/physicslib/msuphysicslib/06_Vectors_Scalars/graphics/prob11a_sevenArrows2.gif||current|||gif|notset|2002-01-07 20:44:18|2002-01-07 20:44:18|physicslib@msu|default
Seven Arrows|Guy D Albertelli, Edwin Kashy||/res/msu/physicslib/msuphysicslib/06_Vectors_Scalars/graphics/prob11a_sevenArrows2.eps||current|||eps|notset|2002-01-07 20:44:40|2002-01-07 20:44:40|physicslib@msu|default
Vector Vs. Scalar|Edwin Kashy|Physics|/res/msu/physicslib/msuphysicslib/06_Vectors_Scalars/msu-prob07.problem|acceleration,force,gravity,mass,speed,sphere,vector,velocity,volume|current|||problem|seniso|2002-01-07 20:44:54|2002-08-10 11:19:33|physicslib@msu|default
Optical Instruments Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/optics2pre.problem|experiment,distance,instruments,lens,virtual,image,focal,optical,magnification,inverted|current|||problem|seniso|2002-01-14 14:47:46|2002-01-14 14:47:46|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Diffraction and Interference Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/diffractpre.problem|constructive,experiment,diffraction,waves,destructive,light,lenses,interference,degrees,interfere,mirrors,phase|current|||problem|seniso|2002-01-14 14:49:30|2002-01-14 14:49:30|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Microwaves Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/microwavepre.problem|frequencies,radiation,experiment,electromagnetic,light,eye,wavelengths,frequency,spectrum,oscillations|current|||problem|seniso|2002-01-14 14:50:44|2002-01-14 14:50:44|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Electrostatics Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/electropre.problem|experiment,capacitance,charge,faradays,parallel,plate,conducting,ice,plates,electrostatics,charged,charges,sphere,static,lab,capacitor|current|||problem|seniso|2002-01-14 13:57:39|2002-01-15 14:43:24|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Error Analysis Post-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/errorpost.problem|distance,error,position,accelerates,velocity|current|||problem|seniso|2002-01-14 14:03:20|2002-01-25 14:22:19|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Electrostatics Post-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/electropost.problem|capacitance,charge,error,volts,potential,capacitor|current|||problem|seniso|2002-01-14 14:16:07|2002-02-02 17:29:11|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Capacitors Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/capacitorpre.problem|capacitors,experiment,charges,charge,half,constant,capacity,capacitor,plates,voltage|current|||problem|seniso|2002-01-14 14:19:10|2002-01-15 14:41:57|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Ohm's Law Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/ohmpre.problem|experiment,circuit,voltage,wire,ohms,law,resistance,ir,resistor|current|||problem|seniso|2002-01-14 14:38:47|2002-01-15 14:46:12|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Electrical Equivalent of Heat Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/heatpre.problem|experiment,heat,energy,equivalent,temperature,water,voltage,electrical,dissipated,specific,mass,power,iv,resistor|current|||problem|seniso|2002-01-14 14:40:54|2002-01-15 14:45:24|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Magnetic Field of a Solenoid Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/solenoidpre.problem|experiment,length,field,parallel,ideal,gauss,radius,magnetic,conversion,solenoid|current|||problem|seniso|2002-01-14 14:41:57|2002-01-15 14:48:48|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Faraday's Law Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/faradaypre.problem|experiment,number,magnet,field,faradays,electric,emf,induced,area,law,magnetic,coil,velocity|current|||problem|seniso|2002-01-14 14:43:47|2002-01-15 14:44:00|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Geometric Optics Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/optics1pre.problem|experiment,snells,parallel,focal,refraction,lens,law,light,lenses,air,surface,convex,magnification,rays|current|||problem|seniso|2002-01-14 14:45:31|2002-01-15 14:47:12|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Radioactive Decay Simulator Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/decaypre.problem|probability,random,predictions|current|||problem|seniso|2002-01-14 15:00:41|2002-01-14 15:00:41|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Faraday's Law Post-Quiz Part 1|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/faradaypost1.problem|Faraday,s Law,radius,number,positive,magnet,position,field,magnetic,constant,speed,flux,coil,voltage,solenoid|current|||problem|seniso|2002-01-14 15:14:28|2002-01-14 15:14:28|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Faraday's Law Post-Quiz Part 2|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/faradaypost2.problem|Faraday,radius,number,positive,magnet,field,magnetic,speed,flux,coil,resistance,voltage,wire|current|||problem|seniso|2002-01-14 15:15:42|2002-01-14 15:15:42|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Geometric Optics Post-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/optics1post.problem|positive,distance,lens,negative,position,length,image,focal|current|||problem|seniso|2002-01-14 15:17:35|2002-01-14 15:25:36|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Optical Instruments Post-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/optics2post.problem|telescope,microscope,image,optical|current|||problem|seniso|2002-01-14 15:18:48|2002-01-14 15:18:48|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Diffraction and Interference Post-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/diffractpost.problem|slit,pattern,diffraction,wavelength,light,picture|current|||problem|seniso|2002-01-14 15:21:32|2002-01-14 15:24:32|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Microwaves Post-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/problems/microwavepost.problem|microwaves,wavelength,frequency,units|current|||problem|seniso|2002-01-14 15:23:11|2002-01-14 15:23:11|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
Electrostatics Pre-Quiz|David Van%20Domelen, Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall), Multimedia Physics (Wolfgang Bauer, Walter Benenson, Gary Westfall, David Van Domelen)|Summaries, Lab Quizzes|/res/msu/mmp/labquiz/electropre.problem|electrostatics,charged,charges,sphere,static,capacitance,lab,charge,parallel,plate,capacitor,conducting,plates|current|||problem|seniso|2002-01-12 14:45:40|2002-01-12 14:45:40|mmp@msu, mmp@msu (Michigan State University), mmp@msu (Michigan State University)|default
|Edwin Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/newton1B1.eps|length,error,color,string,black,image,loop|current|||eps|notset|2002-01-17 18:49:54|2002-01-17 18:49:54|kashy@msu|default
|Edwin Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/newton1B1.gif||current|||gif|notset|2002-01-17 18:50:12|2002-01-17 18:50:12|kashy@msu|default
|Edwin Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/newton1B2.eps|length,error,color,string,black,image,loop|current|||eps|notset|2002-01-17 18:50:26|2002-01-17 18:50:26|kashy@msu|default
|Edwin Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/graphics/newton1B2.gif||current|||gif|notset|2002-01-17 18:50:41|2002-01-17 18:50:41|kashy@msu|default
Up a plane|Edwin Kashy||/res/msu/kashy/physicsLib02/09_Force_and_Motion/msu-prob01.problem|frictional,angle,parallel,body,force,magnitude,mass,constant,external,plane,velocity|current|||problem|notset|2002-01-17 18:48:15|2002-03-30 18:38:12|kashy@msu|default
Three Strings|Guy D Albertelli, Edwin Kashy||/res/msu/kashy/physicsLib02/06_Vectors_Scalars/msu-prob01.problem|strings,angle,tension,frame,string|current|||problem|notset|2002-01-17 18:38:46|2002-03-30 15:45:05|kashy@msu|default
|Guy D Albertelli||/res/msu/kashy/physicsLib02/06_Vectors_Scalars/graphics/three_strings.eps|length,error,black,color,string,sun,image,loop|current|||eps|notset|2002-01-17 18:39:09|2002-01-17 18:39:09|kashy@msu|default
|Edwin Kashy||/res/msu/kashy/physicsLib02/06_Vectors_Scalars/graphics/three_strings.gif||current|||gif|notset|2002-01-17 18:39:15|2002-01-17 18:39:15|kashy@msu|default
Linear Motion Problem Set|paul Ciske|linear motion|/res/msu/ciskepau/linearmotion.page||current|||page|seniso|2002-01-14 10:48:27|2002-01-21 13:49:28|ciskepau@msu|default
linear motion 1|paul Ciske||/res/msu/ciskepau/linearmotion1.problem|acceleration,speed|current|||problem|seniso|2002-01-14 13:44:15|2002-01-14 13:44:15|ciskepau@msu|default
linear motion 2|paul Ciske||/res/msu/ciskepau/linearmotion2.problem|acceleration,practice,speed|current|||problem|notset|2002-01-14 14:21:04|2002-01-14 14:21:04|ciskepau@msu|default
linear motion 3|paul Ciske||/res/msu/ciskepau/linearmotion3.problem|ball,mass,air,speed|current|||problem|notset|2002-01-14 14:28:46|2002-01-14 14:28:46|ciskepau@msu|default
linear motion 4|Paul Ciske||/res/msu/ciskepau/linearmotion4.problem|acceleration|current|||problem|notset|2002-01-14 14:41:47|2002-01-14 14:41:47|ciskepau@msu|default
linear motion 5|paul Ciske||/res/msu/ciskepau/linearmotion5.problem|freefall,acceleration|current|||problem|seniso|2002-01-14 14:52:21|2002-01-18 11:08:04|ciskepau@msu|default
Water Rocket|Paul Ciske||/res/msu/ciskepau/linearmotion6.problem|acceleration,distance time,maximum,accelerating|current|||problem|seniso|2002-01-14 15:25:22|2002-01-14 15:25:22|ciskepau@msu|default
Linear Motion 6|Paul Ciske||/res/msu/ciskepau/linearmotion7.problem|accelerates,speed|current|||problem|seniso|2002-01-18 11:31:46|2002-01-18 11:31:46|ciskepau@msu|default
Linear Motion 8|Paul Ciske||/res/msu/ciskepau/linearmotion8.problem|accelerating|current|||problem|seniso|2002-01-21 10:49:20|2002-01-21 10:49:20|ciskepau@msu|default
Linear Motion 9|Paul Ciske||/res/msu/ciskepau/linearmotion9.problem|distance,accelerates|current|||problem|seniso|2002-01-21 10:58:40|2002-01-21 10:58:40|ciskepau@msu|default
Linear Motion 10|Paul Ciske||/res/msu/ciskepau/linearmotion10.problem|freefall,speed|current|||problem|seniso|2002-01-21 11:04:29|2002-01-21 11:04:29|ciskepau@msu|default
Linear Motion 11|Paul Ciske||/res/msu/ciskepau/linearmotion11.problem|freefall|current|||problem|seniso|2002-01-21 11:09:50|2002-01-21 11:09:50|ciskepau@msu|default
Linear Motion 11|paul Ciske||/res/msu/ciskepau/linearmotion12.problem|acceleration,distance,speed|current|||problem|seniso|2002-01-21 12:03:59|2002-02-04 08:40:04|ciskepau@msu|default
Linear Motion Graph|paul Ciske||/res/msu/ciskepau/linearmotiongraph.gif||current|||gif|notset|2002-01-21 12:50:26|2002-01-21 12:50:26|ciskepau@msu|default
Distance Time Graph|Paul Ciske|Graph|/res/msu/ciskepau/linearmotion13.problem|motion,moving|current|||problem|seniso|2002-01-21 13:39:11|2002-01-21 13:39:11|ciskepau@msu|default
|Andre Pulford, MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/graphics/CO2_2d.gif||current|||gif|seniso|2002-01-17 19:57:04|2002-01-17 19:57:04|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/graphics/globeicon.gif||current|||gif|seniso|2002-01-18 10:47:28|2002-01-18 10:47:28|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/graphics/icemelt.gif||current|||gif|seniso|2002-01-18 11:12:52|2002-01-18 11:12:52|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/graphics/leaficon.gif||current|||gif|seniso|2002-01-18 11:13:26|2002-01-18 11:13:26|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/graphics/icemelt.swf||current|||swf|seniso|2002-01-18 11:19:19|2002-01-18 11:19:19|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Recognizing increases in entropy |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/entropy_increasing2.problem|acids,amino,cells,diffusion,entropy,growth,membrane,molecules,number,process,protein,proteins|current||This problem page is part of a unit on bioenergetics:energy.  This is a true and false problem on changes in entropy.|problem|seniso|2002-01-18 10:40:24|2002-06-05 15:20:58|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Ice Water- Enthalpy|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/Iceandwater11_jp.problem|heat,energy,enthalpy,molecules,ice,water,free,melts,melt,processes,process|current||This problem page is part of a unit on bioenegetics:energy.  This is a multiple choice question on the bioenergetics of melting ice.|problem|seniso|2002-01-18 10:57:18|2002-01-18 11:00:16|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Ice and Water- Enthalpy|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/Iceandwater11_DK.problem|bioenergetics,energy,sugar,enthalpy,molecules,ice,water,gibbs,muscle,free,melt,processes,process,contraction|current||This problem page is part of a unit on bioenergetics: energy.  This is a multiple choice problem on the enthalpy changes in melting ice.|problem|seniso|2002-01-18 11:22:56|2002-01-18 11:29:08|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Ice and Water - Entropy|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/Iceandwater2_DK.problem|bioenergetics,energy,entropy,ice,liquid,melting,molecule,molecules,motion,solid,water|current||This problem page ia part of a unit on bioenergetics:energy.  This is a multiple choice problem on the entropy changes in melting ice.|problem|seniso|2002-01-18 11:27:15|2002-06-04 15:31:21|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Delta G for ice and water at 10C |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/deltaG1_DK.problem|bioenergetics,energy,enthalpy,entropy,ice,melt,molecules,oc,process,temperature,water|current||This problem page is part of a unit on bioenergetics: energy.  This is a true and false problem on the change in delta G for a mixture of ice and water.|problem|seniso|2002-01-18 11:41:03|2002-06-05 14:51:01|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Delta G for ice and water at -10C |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/deltaG2_DK.problem|bioenergetics,energy,enthalpy,entropy,equilibrium,ice,melt,molecules,temperature,water|current||This problem page is part of a unit on bioenergetics:energy.  This is a true and false problem on changes in delta G for a cool water solution.|problem|seniso|2002-01-18 11:49:17|2002-06-05 15:16:26|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Entropy change of fermentation |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/bioreactions1_DK.problem|bioenergetics,carbon,energy,entropy,fermentation,liquid,molecule,molecules,number,process,speed,sugar|current||This problem page is part of a unit on bioenergetics:energy.  This is a true and false problem on changes in entropy during fermentation.|problem|seniso|2002-01-18 12:22:33|2002-06-24 14:19:25|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Delta G of Fermentation|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/bioreactions3_DK.problem|bioenergetics,energy,entropy,fermentation,free,negative,positive,process,states|current||This problem page is part of a unit on bioenergetics:energy.  This is a true and false problem page on changes in delta G for fermentation reactions.|problem|seniso|2002-01-18 12:41:05|2002-06-04 16:09:37|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Is the burning of sugar a favorable process? |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/sugar_entropy_DK.problem|bioenergetics,bioreaction,cells,co,energy,molecule,molecules,process,reaction,work|current||This problem page is part of a unit on bioenergetics: energy. This is a mix and match problem on the burning of sugar as a favorable process.|problem|seniso|2002-01-18 12:56:06|2002-06-05 16:27:24|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Is the burning of sugar a favorable process? |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/sugar_enthaply_DK.problem|bioenergetics,burning,cells,energy,enthalpy,muscle,process,products,reactants,reaction|current||This problem page is part of a unit on Bioenergetics:energy.  This is a mix and match problem on enthalpy changes in a sygar burning reaction.|problem|seniso|2002-01-21 09:59:10|2002-06-24 14:26:51|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Is the burning of sugar a favorable process? |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/burning_sugar_JP2.problem|bioenergetics,cells,energy,enthalpy,entropy,favor,favorable,muscle,negative,process,processes,sugar|current||This problem page is part of a unit on Bioenergetics:energy.  This is a mix and match problem on the burning of sugar as a favorable process.|problem|seniso|2002-01-21 10:10:37|2002-06-04 16:14:51|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Delta G of muscle contraction |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/muscle_contraction_DK.problem|acid,amino,atp,bioenergetics,components,contraction,dna,energy,muscle,negative,nucleotide,proteins,structure|current||This problem page is part of a unit on bioenergetics:energy.  This is a true and false problem on the structure of ATP.|problem|seniso|2002-01-21 10:16:42|2002-06-05 16:15:26|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Is the hydrolysis of ATP a favorable reaction? - Looking at enthalpy |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/atp_enthalpy_DK.problem|atp,bioenergetics,enthalpy,entropy,ho,hydrolysis,phosphate,products,reactants,reaction|current||This problem is part of a unit on bioenergetics:energy.  This is a true and false problem on the hydrolysis of ATP as a favorable reaction.|problem|seniso|2002-01-21 10:21:01|2002-06-04 15:52:37|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Is the hydrolysis of ATP a favorable reaction? - Looking at free energy / DG |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/atp_deltaG_DK.problem|atp,bioenergetics,changes,delta,energy,enthalpy,entropy,hydrolysis,negative|current||This problem page is part of a unit on bioenergetics: energy. This is a true and false problem looking at the hydrolysis of ATP as a favorable reaction.|problem|seniso|2002-01-21 10:32:36|2002-06-04 15:50:38|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
So why are phosphate bonds called high energy bonds? |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/atp_phosphate_DK.problem|atp,bioenergetics,energy,free,hydrolysis,muscle,reactions,water|current||This problem page is part of a unit on bioenergetics: energy.  This is a true and false problem concerning high energy phosphate bonds.|problem|seniso|2002-01-21 10:37:31|2002-06-04 15:55:43|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Is the pull of actin fibers by myosin a favorable reaction?|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/actinfibers1_DK.problem|actin,bioenergetics,contraction,disorder,energy,fibers,molecules,muscle,myosin,process|current||This problem page is part of a unit on large biomolecules.  This is a true and false problem on changes is disorder during muscle contractions.|problem|seniso|2002-01-21 10:48:04|2002-06-04 15:38:18|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Is the pull of actin fibers by myosin a favorable reaction? |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/actinfibers2_DK.problem|actin,bioenergetics,contraction,energy,enthalpy,muscle,myosin|current||This problem page is part of a unit on bioenergetics: energy.  This is a true and false problem on enthalpy changes during muscle contractions.|problem|seniso|2002-01-21 10:51:49|2002-06-04 15:40:48|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Torching a marshmallow - a favorable reaction. |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/marshmallow_2_dbk.problem|bioenergetics,burn,co,energy,enzyme,enzymes,fructose,marshmallow,molecules,reaction,reactions|current||This problem page is part of a unit on bioenergetics: enzymes.  This is a true and false problem on the burning of a marshmallow as a foavorable reaction.  This page also contains a movie of a burning PEEP marshmallow.|problem|seniso|2002-01-22 09:38:14|2002-06-05 16:06:40|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Enzymes and table sugar |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/enzyme_sugar_DK.problem|bioenergetics,catalysis,enzyme,enzymes,favorable,fructose,glucose,molecule,positive,specific,sucrose,sugar|current||This problem page is part of a unit on bioenergetics: enzymes.  This is a true and false problem that looks at the reactions of sucrose and water into fructose and glucose.|problem|seniso|2002-01-22 10:11:39|2002-06-05 15:24:00|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Sucrase|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/sucrase_1_DK.problem|action,bioenergetics,catalyze,energy,enzyme,fructose,glucose,hydrolysis,hydrolyzed,molecule,molecules,reaction,reactions,sucrase,sucrose|current||This problem page is part of a unit on bioenergetics: enzymes.  This is a true and false problem page on the action of sucrase.|problem|seniso|2002-01-22 10:45:58|2002-06-05 16:18:38|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Sucrase |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/sucrase_2_DK.problem|bioenergetics,diagram,energetics,energy,enzymes,fructose,glucose,graph,hydrolysis,line,sucrase,sucrose|current||This problem page is part of a unit on bioenergetics: enzymes.  This problem page is mix and match question on the action of the enzyme sucrase.|problem|seniso|2002-01-22 10:52:52|2002-06-05 16:20:20|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
An enzyme at work: the energetics of chymotrypsin |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/chymo_1_dbk.problem|activation,amino,bioenergetics,body,chymotrypsin,collisions,energetics,energy,enzyme,enzymes,hydrolysis,protein,proteins|current||This problem page is part of unit on bioenergetics: enzymes.  This is a true and false problem on the action of the enzyme chymotrypsin.|problem|seniso|2002-01-22 11:03:36|2002-06-04 16:18:48|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
How chymotrypsin works|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/chymo_image_DK.problem|acids,amino,bioenergetics,chymotrypsin,enzyme,enzymes,protein,strain|current||This problem page is part of a unit on bioenergetics: enzymes.  This is a true and false problem on the action of the chymotrypsin enzyme.  |problem|seniso|2002-01-22 11:11:31|2002-06-05 14:41:22|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Chymotrypsin as a cartoon |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/chymo_cartoon_DK.problem|acids,amino,bioenergetics,cartoon,catalyzes,chymotrypsin,enzyme,enzymes,molecule,protein,proteins|current||This problem page is part of a unit on bioenergetics: enzymes.  This is another true and false problem on the action of chymotrypsin as an enzyme.|problem|seniso|2002-01-22 14:35:30|2002-06-04 16:48:32|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
How do cells burn sugar? |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/cells_burn_sugar_dbk.problem|acid,amino,atp,bioenergetics,cells,disaccharide,enzyme,enzymes,fructose,glucose,protein,reaction,reactions,sucrose,sugar|current||This problem page is not part of the current unit on bioenergetics: enzymes.  This is a true and false problem on the enzymes catalyzed phosphorylation reaction of sugar.|problem|seniso|2002-01-22 14:42:31|2002-06-04 16:20:50|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Making things happen: coupling favorable to unfavorable processes/reactions |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/coupled_rxn.problem|atp,bioenergetics,coupled,electrons,gradient,processes,reaction,reactions,voltage,water|current||This problem page is part of a unit on bioenergetics: coupled reactions.  This is a multiple choice problem where the student determines which process is the favorable one from a list of posisble choices.|problem|seniso|2002-01-22 15:11:50|2002-06-05 14:44:31|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Delta G of coupled reactions: the break down of sugar |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/delg_sugar_KM.problem|addition,bioenergetics,cells,energy,glucose,hydrolysis,metabolism,molecule,proteins,reaction,reactions,specific,work|current||This page is part of a unit on large biomolecules: coupled reactions.  This is a multiple choice problem page on the breakdown of glucose as a coupled reaction.|problem|seniso|2002-01-22 15:29:54|2002-06-05 14:48:51|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Using ATP hydrolysis to make an amino acid |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/amino_acid_and_ATP_KM.problem|acid,adp,amino,atp,bioenergetics,biological,cell,cells,coupled,coupling,energy,entropy,favorable,glutamine,hydrolysis,molecule,molecules,reaction,reactions,unfavorable,work|current||This problem page is part of a unit on bioenergetics: coupled reactions.  This is a multiple choice problem on the coupling of ATP hydrolysis to the synthesis of glutamine.|problem|seniso|2002-01-22 16:01:52|2002-06-04 15:48:47|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
ATP drives a pump|, MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/ATP_drives_pump_KM.problem|acid,amino,atp,balance,bioenergetics,cell,cells,charged,chemical,conduction,constant,electrical,energy,enzyme,enzymes,free,glucose,gradient,hydrolysis,impulse,ion,ions,lipids,membrane,membranes,metabolism,molecule,nonpolar,process,reaction,reactions,significant,synthesis,transport,water,work|current||This page is part of a unit on bioenergetics: coupled reactions.  This is a multiple choice question on the Na/K pump.|problem|seniso|2002-01-23 11:13:43|2002-06-04 13:26:22|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
The Mechanics of the Na/K Pump|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/NaK_pump_1_KM.problem|action,atp,bioenergetics,cell,cycle,ions,molecules,na,potassium,protein,reactions,sodium|current||This problem page is part of a unit on bioenergetics: coupled reactions.  This is another multiple choice problem on the sodium / potassium pump. |problem|seniso|2002-01-23 11:19:10|2002-06-04 15:34:17|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
The mechanics of the Na+/K+ pump |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/NaK_pump_2_KM.problem|atp,bioenergetics,cell,components,enzymes,hydrolysis,ions,potassium,protein,pump,sodium,work|current||This problem page is part of a unit on bioenergetics: coupled reactions.  This is another multiple choice problem on the sodium / potassium pump. |problem|seniso|2002-01-23 11:24:23|2002-06-04 15:36:46|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Allosteric regulation of glycogen phosphorylase |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/alloreg_glyc_pase.problem|act,activity,allosteric,atp,bioenergetics,cells,energy,enzyme,enzymes,glucose,molecules,regulation|current||This problem page is part of a unit on bioenergetics: enzyme regulation.  This is a multiple choice problem on allosteric regulation.|problem|seniso|2002-01-23 11:40:19|2002-06-04 15:45:55|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Regulation: analysis of glutamine synthetase |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/glutamine_synth_KM.problem|acid,acids,activity,amino,atp,bioenergetics,cell,cells,enzyme,enzymes,glutamine,vegan|current||This problem page is part of a unit on bioenergetics: enzymes.  This is a mix and match problem on the use of enzymes to regulate reactions.|problem|seniso|2002-01-23 11:46:05|2002-06-05 15:28:42|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
An enzyme at work: analysis of glycogen phosphorylase |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/glyco_pase_KM.problem|atp,bioenergetics,carbon,enzyme,glucose,glycogen,phosphate,phosphorylase,protein,unit|current||This problem page is part of a unit on bioenergetics: enzyme regulation.  This is a true and false problem on the enzyme glycogen phosphorylase.|problem|seniso|2002-01-23 12:41:59|2002-06-05 15:53:41|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
What regulates glycogen phosphorylase? |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/glyco_pase_reg.problem|atp,bioenergetics,energy,enzyme,glucose,glycogen,phosphorylase|current||This problem page is part of a unit on bioenergetics: enzyme regulation.  This is a multiple choice problem on regulation of glycogen phosphorylase.|problem|seniso|2002-01-23 15:19:02|2002-06-05 15:54:55|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Activators and inhibitors |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/glyco_act_inhib.problem|acid,activator,amino,atp,bioenergetics,enzyme,glucose,glycogen,inhibitor,molecule,phosphorylase|current||This problem is part of a unit on bioenergetics: enzyme regulation.  This is a mix and match problem on potential activators and inhibitors of glycogen phosphorylase.|problem|seniso|2002-01-23 15:25:36|2002-06-05 15:29:46|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Different shapes - different activity |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/shapes_activity_KM.problem|activator,activity,bioenergetics,cell,changes,conformation,diagram,enzyme,glucose,glycogen,molecules,phosphorylase,phosphorylation,state|current||This page is part of a unit on bioenergetics: enzyme regulation.  This is a true and false problem on T nd R states of enzymes.|problem|seniso|2002-01-23 15:32:29|2002-06-05 16:16:42|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Our original questions |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/bioen_recap_1.problem|bioenergetics,carbon,energy,enzyme,enzymes,favorable,free,glucose,process,reactions,regulation,water|current||This problem page is part of a unit on bioenergetics: enzyme regulation.  This is a true and false problem on why reactions sometimes don't occur under normal conditions. |problem|seniso|2002-01-23 15:39:18|2002-06-04 16:02:32|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Our original questions, continued |MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/problems/bioen_recap_2.problem|activation,bioenergetics,energy,enzymes,equivalent,favorable,original,questions,reactions,regulation|current||This problem page is part of a unit on bioenergetics: enzyme regulation.  This is a true and false problem on how living things make reactions happen.|problem|seniso|2002-01-23 15:45:20|2002-06-04 16:04:33|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
Entropy|MSU HHMI First Year Online Biology|Bio Information, Bioenergetics: Coupled Reactions|/res/msu/bio/EnzymeEnergy/bioen_014.htm|bioenergetics,energy,chemical,work,states,entropy,disorder,contraction|current||This webpage is part of a unit on bioenergetics:energy.  This page provides a discussion of how entropy relates to chemical reactions.  This is also a FLASH animation in this page.|htm|seniso|2002-01-16 18:39:50|2002-01-16 18:39:50|bio@msu, bio@msu (Michigan State University), bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/ecol_geochem/graphics/lava_to_waterfall.gif|succession,lava field|current|||gif|seniso|2002-01-14 17:06:33|2002-01-14 17:06:33|bio@msu, bio@msu (Michigan State University)|default
|Janet Batzli, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/ecol_geochem/graphics/grass_flesh.gif|flesh,grass|current|||gif|seniso|2002-01-14 17:07:43|2002-01-14 17:07:43|bio@msu, bio@msu (Michigan State University)|default
|Janet Batzli, MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/ecol_geochem/graphics/carbon2.swf|carbon,cycle, cell level|current|||swf|seniso|2002-01-14 17:12:27|2002-01-14 17:12:27|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/ecol_geochem/enut_045.html|atom,co,producers,life,hydrogen,energy,carbon,chemical,organic,molecule,production,carbohydrates,photosynthesis,primary,food,molecules,body,plant,water,ca|current|||html|seniso|2002-01-14 17:04:07|2002-03-26 17:24:57|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/ecol_geochem/enut_010.html|carbon,co,cycle,energy,experiment,flow,growth,light,photosynthesis,plant,respiration,water|current|||html|seniso|2002-01-18 16:39:17|2002-07-31 11:00:58|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/hardy_weinberg/hw_geneticdrift_105.htm|size,drift,population,genetic|current|||htm|seniso|2002-01-21 14:23:37|2002-01-21 14:55:48|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/hardy_weinberg/hw_geneticdrift_110.htm|randomness,random,drift,randomly,genetic|current|||htm|seniso|2002-01-21 14:24:37|2002-01-21 14:24:37|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/hardy_weinberg/hw_geneticdrift_115.htm|random,mortality,drift,genetic|current|||htm|seniso|2002-01-21 14:25:53|2002-01-21 14:25:53|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Biology|Bio Information|/res/msu/bio/bio2/ecology/hardy_weinberg/hw_geneticdrift_120.htm|drift,probability,genetic|current|||htm|seniso|2002-01-21 14:27:53|2002-01-21 14:27:53|bio@msu, bio@msu (Michigan State University)|default
|MSU HHMI First Year Online Bio