| Chapter: |
Readings |
| |
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| Dourmashkin, Classical Mechanics: MIT 8.01 Course Notes |
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| Chapter 1 The History and Limitations of Classical Mechanics |
Course Notes |
| Chapter 2 Units, Dimensional Analysis, Problem Solving, and
Estimation |
Course Notes |
| Chapter 3 Vectors |
Course Notes |
| Chapter 4 One Dimensional Kinematics |
Course Notes |
| Chapter 5 Two Dimensional Kinematics |
Course Notes |
| Chapter 6 Circular Motion |
Course Notes |
| Chapter 7 Newton’s Laws of Motion |
Course Notes |
| Chapter 8 Applications of Newton’s Second Law |
Course Notes |
| Chapter 9 Circular Motion Dynamics |
Course Notes |
| Chapter 10 Momentum, System of Particles, and Conservation of Momentum |
Course Notes |
| Chapter 11 Reference Frames |
Course Notes |
| Chapter 12 Momentum and the Flow of Mass |
Course Notes |
| Chapter 13 The Concept of Energy and Conservation of Energy |
Course Notes |
| Chapter 14 Potential Energy and Conservation of Energy |
Course Notes |
| Chapter 15 Collision Theory |
Course Notes |
| Chapter 16 Two Dimensional Rotational Kinematics |
Course Notes |
| Chapter 17 Two Dimensional Rotational Dynamics |
Course Notes |
| Chapter 18 Static Equilibrium |
Course Notes |
| Chapter 19 Angular Momentum |
Course Notes |
| Chapter 20 Rigid Body: Translation and Rotational Motion Kinematics for Fixed Axis Rotation |
Course Notes |
| Chapter 21 Rigid Body Dynamics: Rotation and Translation about a Fixed Axis |
Course Notes |
| Chapter 22 Three Dimensional Rotations and Gyroscopes |
Course Notes |
| Chapter 23 Simple Harmonic Motion |
Course Notes |
| Chapter 24 Physical Pendulum |
Course Notes |
| Chapter 25 Celestial Mechanics |
Course Notes |
| Chapter 26 Elastic Properties of Materials |
Course Notes |
| Chapter 27 Fluids: Statics |
Course Notes |
| Chapter 28 Fluids: Dynamics |
Course Notes |
| Chapter 29 Kinetic Theory |
Course Notes |
