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Physics Notes
目录
Preface
Volume 1
1. Atom in Motion
1-1 Introduction
1-2 Matter Is Made of Atoms
1-3 Atomic Processes
1-4 Chemical Reactions
2. Basic Physics
2-1 Introduction
2-2 Physics Before 1920
2-3 Quantum Physics
2-4 Nuclei and Particles
3. The Relation of Physics to Other Sciences
3-1 Introduction
3-2 Chemistry
3-3 Biology
3-4 Astronomy
3-5 Geology
3-6 Psychology
3-7 How Did It Get That Way
4. Conservation Energy
4-1 What Is Energy
4-2 Gravitational Potential Energy
4-3 Kinetic Energy
4-4 Other Forms of Energy
5. Time and Distance
5-1 Motion
5-2 Time
5-3 Short Time
5-4 Long Time
5-5 Units and Standards of Time
5-6 Large Distance
5-7 Short Distances
6. Probability
6-1 Chance Likelihood
6-2 Fluctuations
6-3 The Random Walk
6-4 A Probability Distribution
6-5 Uncertainty Principle
7. The Theory of Gravitation
7-1 Planetary Motions
7-2 Kepler's Laws
7-3 Development of Dynamics
7-4 Newton's Law of Gravitation
7-5 Universal Gravitation
7-6 Cavendish's Experiment
7-7 What Is Gravity
7-8 Gravity and Relativity
8. Motion
8-1 Description of Motion
8-2 Speed
8-3 Speed as Derivative
8-4 Distance as an Integral
8-5 Acceleration
9. Newton's Laws of Dynamics
9-1 Momentum and Force
9-2 Speed and Velocity
9-3 Components of Velocity Acceleration and Force
9-4 What Is the Force
9-5 Meaning of the Dynamical Equations
9-6 Numberical Solution of the Equations
9-7 Planetary Motions
10. Conservation of Momentum
10-1 Newton's Third Law
10-2 Conservation of Momentum
10-3 Momentum Is Conserved
10-4 Momentum and Energy
10-5 Relativistic Momentum
11. Vectors
11-1 Symmetry in Physics
11-2 Translations
11-3 Rotations
11-4 Vectors
11-5 Vector Algebra
11-6 Newton's Laws in Vector Notation
11-7 Scalar Product of Vectors
12. Characteristics of Force
12-1 What Is a Force
12-2 Friction
12-3 Molecular Forces
12-4 Fundamental Forces Fields
12-5 Pseudo Forces
12-6 Nuclear Forces
13. Work and Potential Energy a
13-1 Energy of a Falling Body
13-2 Work Done by Gravity
13-3 Summation of Energy
13-4 Gravitational Field of Large Objects
14. Work and Potential Energy Conclusion
14-1 Work
14-2 Constrained Motion
14-3 Conservative Forces
14-4 Nonconservative Forces
14-5 Potentials and Fields
15. The Special Theory of Relativity
15-1 The Principle of Relativity
15-2 The Lorentz Transformation
15-3 The Michelson Morley Experiment
15-4 Transformation of Time
15-5 The Lorentz Contraction
15-6 Simultaneity
15-7 Four Vectors
15-8 Relativistic Dynamics
15-9 Equivalence of Mass and Energy
16. Relativistic Energy and Momentum
16-1 Relativity and Philosophers
16-2 The Twin Paradox
16-3 Transformation of Velocities
Notes of Feynman Lectures on Physics
这里是总目录与说明。
Table of contents
Preface
Volume 1