| General Requirements for problem sets. | |
|
Date
|
Description |
| Every Tuesday | A pre-class WebAssign "Assignment" [by 1 p.m.]
AND a Problem Set [at 6 a.m. Wednesday]. The scores on the Problem Sets will be averaged into your class averages. You can access WebAssign here. Instructions are at: http://www.rit.edu/~agysps/courses/all_univ_ph/webants.htm You will also work some of these problems out on paper and submit them to me during class. WebAssign grades only on the answer, I will grade mostly on the method! |
| Every Friday | A pre-class WebAssign "assignment". The assignments will receive full credit as long as you make a serious attempt to answer the questions. In addition, you will receive 1[or 2] bonus points on your final class average if you score more than 60% [80%] on these assignments. |
| 8-10 Mar 2005 | Class worksheet: Intro to rotation ans/solutions |
| 15 Mar | WebAssign PS 1 selected solutions |
| 15 Mar 05 | Class worksheet: Intro to Moment of Inertia ans/solutions |
| Due: 17 Mar 05 | Paper PS1 ans/solutions #1=#6 on WebA #2 |
| 18 Mar | Quiz 1 Solutions: p1 p2 (jpeg) |
| 23 Mar 05 | Test 1 info.
Sample test (pdf).
Solutions: p1 p2 p3 p4 pdf's |
| 24 Mar 05 | Problems on conservation
of angular momentum. Solutions: #2,3
#4 Note:These solutions are from Prof. Lindberg, but he and I get different numbers from the same set-up for #2 and #3. My numbers are: #2: Itot = 1.952 kg·m^2, so omega = 0.0492 rad/sec #3: v0 = 257 m/s |
|
Due: 25 Mar 05
Note date change |
Paper PS2 solutions:
p1 p2a
p2bc
p34 p4 Note : In my solution to #4, it looks as if my value for omega^2 should be 27.7, so omega is 5.26, and that makes the original speed of the putty = 257 m/s. If you did the "other" problem from class instead of the one above, it's ok and the solution is linked here. |
| Due: 31 Mar 05 | Paper PS3 ans/solutions p1 p23a p3b p4a p4b (jpegs) |
| Due: Tues 5 Apr | Watch Resonance Video Assignmt |
| WebAssign PS 4 ans/solutions for #2, 3, 4(f) | |
| Due: 7 Apr 05 | Paper PS4 ans/solutions |
| 8 Apr 05 | Quiz 3 solutions: p1 p2 (jpegs) |
| Test 2 info
Sample test
(pdf). Solutions: p1 p2 p3 p4 (jpegs) |
|
| in-class 14 Apr | Sound Waves problems ans/solutions |
| WebAssign PS 5 ans/solutions #2, 4, 6 #8 (jpegs) | |
| Due: 15 Apr 05 | Paper PS 5 ans/solutions #1, 2ab #2cd, 3 #4 (jpegs) |
| in class 15 Apr | Comparing waves on string to sound waves worksheet -- answers (pdf). |
| 20 Apr 05 | WebAssign PS 6 ans/solutions #2(=#10 on jpg) #3, 4 (=#11,12 on jpg) |
| Due: 22 Apr 05 | Paper
PS 6 ans/solutions #1
#2
#3 (jpegs) refl/refr applets ans (pdf) |
| in class 22, 26 Apr | Light Interference Problems ans/solutions p1 p2 |
| Due: 29 Apr 05 |
Paper PS 7 ans/solutions #1,2,3 #3c,4 |
| 27-28 Apr 05 | Sample slits quiz solutions: p1 p2 |
| 4 May 05 | Test 3 info Sample test solutions p1 p2 p3 p4 |
| In Class: Polarization / Thin films Mini-Lab solutions: p1 p2 | |
| Paper PS 8 ans/solutions | |
| Calorimetry problems from class (meling ice) ans/solutions | |
| Thermodynamics cycle problem ans/solutions (pdf) | |
| Paper PS 9 ans/solutions | |
| Tues, 17 May, 12:30-2:30 Gosnell-1250 |
Final Exam info
Sample
test (pdf). (sorry it's in reverse order?!) Solutions: p1 p2 p3 p4 p5 p6 p7 jpeg's |
