Lecture Presentations

Class Subject Textbook chapter

1/10 Introduction
Extra material: unit conversion, errors and reporting of significant figures 1

1/13 Description of one dimensional motion
Extra material: general problem solving, required format of lab reports 2.1 to 2.5

1/15 Description of one dimensional motion, free fall
2.5 to 2.8

1/20 Motion in two dimensions, projectile motion 4.1 to 4.3

1/22 Projectile motion, Newton's laws 5.1 to 5.3

1/27 Newton's laws 5.4 to 5.7

1/29 Newton's laws and applications 5

1/30 Newton's laws and applications 5

2/3 Rotational motion 6.1 to 6.3

2/5 Rotational dynamics 6.1 to 6.3

2/10 Work and energy 7.1 to 7.4

2/12 Exam 1

2/17 Work and energy 7.1 to 7.4

2/19 Work, energy and power (extra material!) 8

2/24 Linear momentum and its conservation, collisions 9.1 to 9.3

2/26 Linear momentum and its conservation: examples 9.4 and 9.8

3/3 Ridgid objects: center of mass, rotation, moment of inertia 10.1 to 10.6

3/5 The vectorial nature of torque 10.7 to 10.9 and 11.1

3/10 Angular momentum and its conservation, Newton's law of universal gravity 11 and 13.1 and 13.2

3/12 Gravity near the earth's surface, the gravitational potential, Kepler's laws 13.3 to 13.6

3/13 Second order linear differential equations

3/24 Exam 2

3/26 Simple harmonic motion 15.1 to 15.6

3/31 Driven oscillator 15.7

4/2 Wave motion 16

4/7 Wave motion and sound 16, 17, 18

4/9 Temperature, thermal expansion 19

4/14 Ideal and real gases, first law of thermodynamics 19.5, 20.4-20.6

4/16 Total differential, ideal gas law in differential form, specific and latent heat 20.1-20.6

4/21 Adiabatic comperssion and expansion, heat transfer mechnisms 20.7, 21.3

4/23 Kinetic model of gases 21

In order to see the lectures you will need PowerPoint installed on your computer. A free reader can be downloaded here.

Andreas G. Piepke

Last modified: Mon Apr 27 14:57:00 CDT 2009

Class	Subject	Textbook chapter
1/10	Introduction Extra material: unit conversion, errors and reporting of significant figures	1
1/13	Description of one dimensional motion Extra material: general problem solving, required format of lab reports	2.1 to 2.5
1/15	Description of one dimensional motion, free fall	2.5 to 2.8
1/20	Motion in two dimensions, projectile motion	4.1 to 4.3
1/22	Projectile motion, Newton's laws	5.1 to 5.3
1/27	Newton's laws	5.4 to 5.7
1/29	Newton's laws and applications	5
1/30	Newton's laws and applications	5
2/3	Rotational motion	6.1 to 6.3
2/5	Rotational dynamics	6.1 to 6.3
2/10	Work and energy	7.1 to 7.4
2/12	Exam 1
2/17	Work and energy	7.1 to 7.4
2/19	Work, energy and power (extra material!)	8
2/24	Linear momentum and its conservation, collisions	9.1 to 9.3
2/26	Linear momentum and its conservation: examples	9.4 and 9.8
3/3	Ridgid objects: center of mass, rotation, moment of inertia	10.1 to 10.6
3/5	The vectorial nature of torque	10.7 to 10.9 and 11.1
3/10	Angular momentum and its conservation, Newton's law of universal gravity	11 and 13.1 and 13.2
3/12	Gravity near the earth's surface, the gravitational potential, Kepler's laws	13.3 to 13.6
3/13	Second order linear differential equations
3/24	Exam 2
3/26	Simple harmonic motion	15.1 to 15.6
3/31	Driven oscillator	15.7
4/2	Wave motion	16
4/7	Wave motion and sound	16, 17, 18
4/9	Temperature, thermal expansion	19
4/14	Ideal and real gases, first law of thermodynamics	19.5, 20.4-20.6
4/16	Total differential, ideal gas law in differential form, specific and latent heat	20.1-20.6
4/21	Adiabatic comperssion and expansion, heat transfer mechnisms	20.7, 21.3
4/23	Kinetic model of gases	21