Table of contents for Feynman's tips on physics : a problem-solving supplement to the Feynman lectures on physics / Richard P. Feynman, Michael A. Gottlieb, and Ralph Leighton ; with a memoir by Matthew Sands ; and exercises and solutions by Robert Leighton and Rochus Vogt.

Bibliographic record and links to related information available from the Library of Congress catalog.

Note: Contents data are machine generated based on pre-publication provided by the publisher. Contents may have variations from the printed book or be incomplete or contain other coding.


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Contents
Introduction
On the Origins of The Feynman Lectures on Physics I 
Chapter 1: Prerequisites
Review Lecture A
1-1 Introduction to the review lecture 
1-2 Caltech from the bottom 
1-3 Mathematics for physics 
1-4 Differentiation 
1-5 Integration 
1-6 Vectors 
1-7 Differentiating vectors 
1-8 Line integrals 
1-9 A simple example 
1-10 Triangulation 
Chapter 2 Laws and Intuition
Review Lecture B
2-1 The physical laws 
2-2 The Non-relativistic approximation 
2-3 Motion with forces
2-4 Forces and their potentials 
2-5 Learning physics by example 
2-6 Understanding physics physically 
2-7 A problem in machine design 
2-8 Earth's escape velocity 
 2-9Alternate Solutions: Laws and Intuition 
2-9-1 Finding the acceleration of the weight by purely 
geometric arguments 
2-9-2 Finding the acceleration of the weight using 
trigonometry 
2-9-.3 Finding the force on the weight using torque and 
angular momentum 
Chapter 3: Problems and Solutions
Review Lecture C
3-1 Satellite motion 
3-2 Discovery of the atomic nucleus 
3-3 The fundamental rocket equation 
3-4 A numerical integration 
3-5 Chemical rockets 
3-6 Ion propulsion rockets 
3-7 Photon propulsion rockets 
3-8 An electrostatic proton beam deflector 
3-9 Determining the mass of the pi meson 
Chapter 4: Dynamical Effects and Their Applications
Review Lecture D
4-1 A demonstration gyroscope 
4-2 The directional gyro 
4-3 The artificial horizon 
4-4 A ship-stabilizing gyroscope 
4-5 The gyrocompass 
4-6 Improvements in gyroscopes design and construction 
4-7 Accelerometers 
4-8 A complete navigational system 
4-9 Effects of the earth's rotation 
4-10 The spinning disk 
4-11 Earth's nutation 
4-12 Angular momentum in astronomy 
4-13 Angular momentum in quantum mechanics 
4-14 After the lecture 
+
Chapter 5: Selected Exercises 
5-1 Conservation of energy, statics 
5-2 Kepler's laws and gravitation
5-3 Kinematics
5-4 Newton's laws
5-5 Conservation of momentum
5-6 Vectors
5-7 Nonrelativistic two-body collisions in three dimensions
5-8 Forces
5-9 Potentials and Fields
5-10 Units and Dimensions
5-11 Relativistic energy and momentum
5-12 Rotation in two dimensions, the center mass
5-13 Angular momentum, the moment of inertia
5-14 Rotation in three dimensions
 Answers to exercises [I have provided the co cover.{ ]

Library of Congress Subject Headings for this publication:

Physics.
Physics -- Problems, exercises, etc.