MIT 8.01x Classical Mechanics with Walter Lewin

Lecture PDFs and Typed Notes

PDF Link	Lecture Topics
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