PDF Link | Lecture Topics |
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Lecture 1 | Units, Dimensions, Uncertainties, Error |
Lecture 2 | Kinematics: Speed, Velocity, Acceleration |
Lecture 3 | Vectors: Dot Products, Cross Products |
Lecture 4 | 3D Kinematics: Free Falling Reference Frames |
Lecture 5 | Circular Motion, Centripetal Forces, Gravity |
Lecture 6 | Newton's Laws |
Lecture 7 | Weight in Free Fall, Weight in Orbit​ |
Lecture 8 | Friction |
Lecture 9 | Exam 1 Review |
Lecture 10 | Hooke's Law, Springs, Pendulum, Simple Harmonic Motion |
Lecture 11 | Work, Kinetic Energy, Gravitation, Conservative Forces |
Lecture 12 | Air Drag, Resistive Forces, Terminal Velocity |
Lecture 13 | Potential Energy, Simple Harmonic Motion using Energy |
Lecture 14 | Escape Velocities, Circular Orbits, Power |
Lecture 15 | Momentum, Conservation of Momentum, Center of Mass |
Lecture 16 | Elastic and Inelastic Collisions, Center of Mass |
Lecture 17 | Impulse Rockets |
Lecture 18 | Exam 2 Review |
Lecture 19 | Rotating Objects, Moment of Inertia, Rotational Kinetic Energy |
Lecture 20 | Angular Momentum, Torque, Conservation of Angular Momentum |
Lecture 21 | Torque, Oscillating Bodies, Pendulums |
Lecture 22 | Keplers, Laws, Elliptical Orbits, Satellites |
Lecture 23 | Doppler Effect, Binary Stars, Neitron Stars, Black Holes |
Lecture 24 | Rolling Motion, Gyroscopes |
Lecture 25 | Static Equilibrium, Stability |
Lecture 26 | Elasticity, Young's Modulus |
Lecture 27 | Fluid Mechanics, Hydrostatics, Atmospheric Pressure |
Lecture 28 | Hydrostatics, Archimede's Principle, Bernoulli's Equation |
Lecture 29 | Exam 3 Review |
Lecture 30 | Simple Harmonic Motion, Energy, Torsional Pendulum |
Lecture 31 | Forced Oscillations, Normal Modes, Resonances |
Lecture 32 | Heat, Thermal Expansion |
Lecture 33 | Kinetic Gas Theory, Ideal Gas Law, Phase Transitions |
Lecture 34 | Quantum, Classical Mechanics Breakdown |
Lecture 35 | Walter Lewin Outro |