Professor M. Meyer
Physics 66, Spring 2013
24 January 2013
Physics 66 Course Outline Spring 2013
Course Number 0573
Class location/time: Room CFS 92035, Tuesday & Thursday 12:45 p.m. – 5:20 p.m.
Office Hours- Tuesday/Thursday after class; 5:20- 6:30 pm
Key Dates for Adding/Dropping Classes
(note adds/drops can be carried out in the Campus Center)
Last day to drop or change classes without incurring fees
Last day to drop and claim a refund; enrollment & non-resident tuition
Last day to drop online without a grade of “W”
Last day to add classes in person w/ signed ADD permit
Last day to drop classes online
February 18 (Monday)
February 18 (Monday)
February 18 (Monday)
February 19 (Tuesday)
May 5 (Sunday)
Holidays- No Classes
Presidents Birthdays (campus closed)
Spring Break
Cesar Chavez Day (campus closed)
Memorial Day (campus closed)
February 15 -18 (Friday -Monday)
March 29 – April 5 (Friday- Friday)
April 1 (Monday)
May 27 (Monday)
Final exams
May 28 – June 3 (Tuesday – Monday)
Graduation
June 5 (Wednesday)
Lecture, Tutorial, and Lab Schedule for Spring 2013
Week
Serway/Jewett Chapters
Ch 1- Introduction and Vectors
1.6 Coordinate Systems
1.7 Vectors & Scalars
1.8 Vector Properties
1.9 Vector Components
Week 1
Feb 5/
Feb 7
Week 2
Feb 12/
Feb 14
Ch 2- 1-D Motion
2.1 Average Velocity\
2.2 Instantaneous velocity
2.3 Analysis Models- particle under
constant velocity
2.4 Acceleration
2.5 Motion Diagrams
2.6 Constant Acceleration
2.7 Free Fall
Ch 3- 2-D Motion
3.1 Position, velocity, acceleration
vectors
3.2 2-D Motion- const acceleration
3.3 Projectile Motion
3.4 Uniform Circular Motion
3.5 Tangential and Radial Acceleration
Tuesday Meeting
Present Course Information:
Syllabus
Course Outline
Lab Grading
Moodle/WebAssign
Thursday Meeting
Chapter 2 Lecture
Lab
Introduction to the Interactive P66
Physics Laboratories
Chapter 1 Lecture
Chapter 1 Homework:
(2, 7, 8, 14, 17, 19, 23, 24, 25, 26, 31*),
32, 34, 38, 42, 45, 53
(17 problems)
* Chapter 1 sections 1.1 -1.5
Chapter 2 Homework (4th Ed.):
3, 6, 8, 10, 12, 13, 15, 17, 19, 22, 25,
29, 32, 34
(14 problems)
Chapter 3 Lecture
Quiz 1 – Chapters 1and 2
Tutorial
Velocity
Tutorial
Acceleration in one direction
Tutorial Homework:
Velocity: 2
Tutorial Homework:
Acceleration: 4, 5
Chapter 3 Homework:
2, 4, 5, 6, 12, 18, 19, 23, 26, 27, 28, 31
(12 problems)
Professor M. Meyer
Physics 66, Spring 2013
24 January 2013
Week
Serway/Jewett Chapters
Tutorial
Forces Parts I- III
Quiz 2 – Chapter 3
Week 3
Feb 19/
Feb 21
Ch 4- Laws of Motion
4.1 Concept of Force
4.2 Newton’s 1st Law
4.3 Mass
4.4 Newton’s 2nd Law
4.5 Gravity Force & Weight
4.6 Newton’s 3rd Law
4.7 Applications of Newton’s 3rd Law
Tutorial Homework:
Forces: 1, 4, 5
Lab
Newton’s Laws of Motion
Ch 5- App of Newton’s Laws
5.1 Forces of Friction
5.2 Newton’s 2ndLaw – A Particle in
Uniform Circular Motion
5.3 Nonuniform Circular Motion
5.4 Velocity-dependent Resistive
Forces
5.5 Fundamental Forces of Nature
Tutorial
Newton’s 2nd and 3rd Laws
Quiz 3 – Chapter 4
Tutorial Homework:
Newton’s Laws: 3, 4
Lab
Passive Forces and Newton’s Laws
Ch 6- Energy and Energy Transfer
6.1 Systems and Environments
6.2 Work done by a Constant Force
6.3 Scalar Product of 2 Vectors
6.4 Work done by a Varying Force
6.5 KE and Work-Energy Theorem
6.6 The Nonisolated System
6.7 Kinetic Friction
Tutorial
Work and Changes in Kinetic Energy
Ch 7- Potential Energy
7.1 PE of a System
7.2 The Isolated System
7.3 Conservative and Nonconservative
Forces
7.4 Conservative Forces and Potential
Energy
7.5 Nonisolated System in Steady
State
7.6 Potential Energy for Gravitational
and Electric Forces
7.7 Energy Diagrams
Tutorial
Conservation of Energy
Ch 8-Momentum and Collisions
8.1 Conservation of Linear Momentum
8.2 Impulse and Momentum
8.3 Collisions
8.4 2-D Collisions
8.5 Center of Mass
8.6 Motion of a System of Particles
Tutorial
Conservation of Momentum; 1-D
Week 4
Feb 26/
Feb 28
Week 5
Mar 5/
Mar 7
Week 6
Mar 12/
Mar 14
Week 7
Mar 19/
Mar 21
Tuesday Meeting
Thursday Meeting
Chapter 4 Homework:
1, 4, 7, 10, 13, 16, 17, 22, 25, 26, 27,
35, 37, 43
(14 problems)
Chapter 5 Homework:
1, 7, 9, 10, 11, 16, 18, 19, 23, 24, 26,
29, 31, 33, 38, 59
(16 problems)
Tutorial Homework:
Work- KE - 2, 3, 5
Quiz 4 – Chapter 5
Lab
Work and the Work-Energy Theorem
Chapter 6 Homework:
1, 4, 7, 8, 11, 13, 14, 16, 21, 23, 24, 26,
29, 30, 36, 39
(16 problems)
Tutorial Homework:
Conservation of Energy: 1, 3
Quiz 5 – Chapter 6
Lab
Conservation of Energy
Chapter 7 Homework:
1, 2, 5, 6, 8, 10, 14, 15, 23, 25, 28, 31,
32, 35, 38, 40
(16 problems)
Tutorial Homework:
Conservation of Momentum: 3
Chapter 8 Homework:
1, 3, 5, 7, 8, 9, 13, 15, 19, 21, 23, 27,
29, 31, 32, 34, 37, 38, 54
(19 problems)
Quiz 6- Chapter 7
Tutorial
Changes in Energy and Momentum
Tutorial Homework:
Changes in Energy and Momentum: 1
Conservation of Momentum
demonstrations
Professor M. Meyer
Physics 66, Spring 2013
Week
Serway/Jewett Chapters
Week 8
Mar 26/
Mar 28
Ch 10- Rotational Motion
10.1 Angular Position, Speed and
Acceleration
10.2 Rotational Kinematics
10.3 Relations Between Rotational and
Translational Quantities
10.4 Rotational Kinetic Energy
10.5 Torque and Vector Product
10.6 Rigid Object in Equilibrium
10.7 Rigid Object Under a Net Torque
10.8 Angular Momentum
10.9 Conservation of Angular
Momentum
10.10 Rolling of Rigid Bodies
Week 9
Apr 2/
Apr 4
Week 10
Apr 9/
Apr 11
Week 11
Apr 16/
Apr 18
Week 12
Apr 23/
Apr 25
Tuesday Meeting
Tutorial
Rotational Motion
Equilibrium of Rigid Bodies
Hand out Chapter 8 take-home quiz
24 January 2013
Thursday Meeting
No class
Non-instructional day
Tutorial Homework:
Rotational Motion: 1, 2
Equilibrium of Rigid Bodies: all
Chapter 10 Homework:
1, 2, 3, 9, 12, 14, 21, 22, 23, 27, 31, 33,
39, 41, 43, 48, 49, 53, 70
(19 problems)
Spring Break
Ch 12- Oscillatory Motion
12.1 Particle attached to a Spring
12.2 Math Representation of SHM
12.3 Energy Consideration in SHM
12.4 Simple Pendulum
12.5 Physical Pendulum
12.6 Damped Oscillations
12.7 Forced Oscillations
Tutorial
Simple Harmonic Motion
Ch 13- Mechanical Waves
13.1 Propagation of a Disturbance
13.2 The Wave Model
13.3 The Traveling Wave
13.4 Speed of Waves on a Strings
13.5 Reflection and Transmission
13.6 Rate of Energy Transfer –String
Tutorial
Reflection and TransmissionParts I through III
Ch 13- Mechanical Waves
13.7 Sound Waves
13.8 Doppler Effect
Tutorial
Superposition and Reflection of
Pulses
Ch 14- Superposition and Standing
Waves
14.1 Principle of Superposition
14.2 Interference of Waves
14.3 Standing Waves
14.4 Standing Waves in Strings
14.5 Standing Waves in Air Columns
14.6 Beats-Interference in Time
Tutorial Homework:
Superposition: 1, 4, 5
Tutorial Homework:
Simple Harmonic Motion: all
Quiz 8- Chapter 10
Lab
Simple Harmonic Motion
Chapter 12 Homework:
3, 5, 6, 11, 17, 18, 22, 23, 27, 28, 31,
33, 43
(13 problems)
Chapter 13 Homework:
1, 3, 5, 6, 10, 11, 15, 17, 18, 21
(10 problems)
Chapter 13 Homework:
23, 25, 28, 30, 33, 35
(6 problems)
Chapter 14 Homework:
1, 2, 5, 8, 9, 12, 15, 17, 20, 22, 23, 26,
28, 29, 36, 39, 40
(17 problems)
Quiz 9- Chapter 12
Tutorial
Reflection and TransmissionParts IV and V
Tutorial Homework:
Reflection and Transmission:1, 2, and
4
Quiz 10- Chapter 13
Lab
Standing Waves
Professor M. Meyer
Physics 66, Spring 2013
Week
Serway/Jewett Chapters
Week 13
Apr 30/
May 2
Ch 16-Temperature and the Kinetic
Theory of Gases
16.1 Temperature and the Zeroth Law
16.2 Thermometers and Temperature
Scale
16.3 Thermal Expansion
16.4 Macroscopic Description of an
Ideal Gas
16.5 Kinetic Theory of Gases
16.6 Distribution of Molecular Speeds
Tutorial
Ideal Gas LawParts I and II
Ch 17- Energy in Thermal Processes:
the First Law of Thermodynamics
17.1 Heat and Internal Energy
17.2 Specific Heat
17.3 Latent Heat and Phase Changes
17.4 Work in Thermodynamic
Processes
17.5 First Law of Thermodynamics
17.6 Applications of the First Law
Tutorial
Ideal Gas LawParts III and IV
Week 14
May 7/
May 9
Week 15
May 14/
May 16
Week 16
May 21/
May 23
Week 17
May 28/
May 30
Ch 17- Energy in Thermal Processes:
the First Law of Thermodynamics
17.7. Molar Specific Heats of Ideal Gas
17.7. Adiabatic Processes for an Ideal
Gas
17.8. Molar Specific Heats and the
Equipartition of Energy
17.9. Energy Transfer in Thermal
Processes
Ch 18- Heat Engines, Entropy, and the
Second Law of Thermodynamics
18.1 Heat Engines and the Second
Law
18.2 Reversible and Irreversible
Processes
18.3 Alternate Statement of the 2nd Law
Entropy
18.4 Entropy and the Second Law
18.5 Entropy Changes in Irreversible
Processes
Finals Week
24 January 2013
Tuesday Meeting
Chapter 16 Homework:
1, 6, 9, 12, 17, 22, 24, 31, 32, 33, 34,
36, 39, 62
(14 problems)
Tutorial Homework:
Ideal Gas Law: all
Chapter 17 Homework:
2, 5, 8, 9, 11, 14, 15, 19, 21, 23, 25, 26,
27, 31 (14 Problems)
Thursday Meeting
Quiz 11- Chapters 13 and 14
Lab
Boyle’s Law
Quiz 12- Chapter 16
Tutorial
A Microscopic Model for an Ideal
Gas
Tutorial Homework:
First Law of Thermodynamics: 1, 2
Microscopic Model: all
Quiz 13- Chapter 17 (17.1 - 17.6)
Tutorial
First Law of Thermodynamics
TBD
Tutorial Homework:
1st Law of Thermo: all
Chapter 17 Homework:
33, 35, 41, 43, 49, 51, 53
(7 Problems)
Quiz 14- Chapter 17 (17.7 – 17.9)
Tutorial
Heat Engines and the 2nd Law of
Thermodynamics
Chapter 18 Homework:
1, 2, 5, 7, 12, 13, 16, 21, 23, 26, 28, 30,
32, 34, 35 (15 Problems)
Tutorial (continued)
Heat Engines and the 2nd Law of
Thermodynamics
Tutorial Homework:
2nd Law of Thermo: all
Final Quiz- Ch 18
and
Tutorial Final
Thursday
May 30
1:00