Classical Mechanics by Walter Lewin(MIT professor)

Classical Mechanics list is here. We have already reviewed the First lecture in our recent post.

Lecture 1

  • Measurement

Go through our Entire Lecture

Introduction and Lecture 1: Measurement

Kinematics

  • Speed
  • Velocity
  • Acceleration
Lecture 2

Lecture 3

  • Vectors
  • Dot Products
  • Cross Products
  • 3D Kinematics
Lecture 3

Lecture 4

  • 3D Kinematics
  • Free Falling Reference Frames
Lecture 4

Lecture 5

  • Circular Motion
  • Centripetal Forces
  • Perceived Gravity
Lecture 5

Lecture 6

  • Newton’s Laws
Lecture 6

Lecture 7

  • Weight
  • Weightlessness in Free Fall
  • Weight in Orbit
Lecture 7

Lecture 8

  • Friction
Lecture 8

Lecture 9 – First Exam Review

Lecture 9

Lecture 10

  • Hooke’s Law
  • Springs
  • Pendulums
  • Simple Harmonic Motion
Lecture 10

Lecture 11

  • Work, Kinetic & Potential Energy
  • Gravitation
  • Conservative Forces
Lecture 11

Lecture 12

  • Air Drag
  • Resistive Forces
  • Conservative Forces
  • Terminal Velocity
Lecture 12

Lecture 13

  • Potential Energy
  • Derive Simple Harmonic Motion using Energy
Lecture 13

 Lecture 14

  • Escape Velocities
  • Circular Orbits
  • Bound and Unbound Orbits
  • Power
Lecture 14

Lecture 15

  • Momentum
  • Conservation of Momentum
  • Center of Mass
Lecture 15

Lecture 16

  • Elastic & Inelastic Collisions
  • Center of Mass
  • Frame of Reference
Lecture 16

Lecture 17

  • Impulse
  • Rockets
Lecture 17

Lecture 18

  • 2nd Exam Review
Lecture 18

Lecture 19

  • Rotating Objects
  • Moment of Inertia
  • Rotational KE
  • Neutron Stars
Lecture 19

Lecture 20

  • Angular Momentum
  • Torques
  • Conservation of Angular
Lecture 20

Lecture 21

  • Torques
  • Oscillating Bodies
  • Physical Pendulums
Lecture 21

Lecture 22

  • Kepler’s Laws
  • Elliptical Orbits
  • Satellites
  • Orbital Changes
Lecture 22

Lecture 23

  • Doppler Effect
  • Binary Stars
  • Neutron Stars
  • Black Holes
Lecture 23

Lecture 24

  • Rolling Motion
  • Gyroscopes
  • VERY NON-INTUITIVE
Lecture 24

Lecture 25

  • Static Equilibrium
  • Stability
  • Rope Warker
Lecture 25

Lecture 26

  • Elasticity
  • Young’s Modulus
Lecture 26

Lecture 27

  • Fluid Mechanics
  • Hydrostatics
  • Pascal’s Principle
  • Atmosphere Pressure
Lecture 27

  Lecture 28

  • Hydrostatics
  • Archimedes’ Principle
  • Bernoulli’s Equation
Lecture 28

Lecture 29

  • Third Exam Review
Lecture 29

Lecture 30

  • Simple Harmonic Motion
  • Energy Considerations,
  • Torsional Pendulum
Lecture 30

Lecture 31

  • Forced Oscillations
  • Normal Modes
  • Resonances
  • Musical Instruments
Lecture 31

Lecture 32

  • Heat
  • Thermal Expansion
Lecture 32

  Lecture 33

  • Kinetic Gas Theory,
  • Ideal Gas Law
  • Phase Transitions
Lecture 33

 Lecture 34

  • The Wonderful Quantum World
  • Breakdown of Classical Mechanics
Lecture 34

Here read our review on this Course here

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