Walter Lewin. For the Love of Physics Physics 8.03 Vibrations and Waves (06) Newtons Laws (14) Orbits and Escape Velocity (00) Introduction (01) Units, Dimensions, and Scaling Arguments (02) Introduction to Kinematics (03) Kinematics (03) Vectors (04) The Motion of Projectiles (05) Uniform Circular Motion (06) Newtons First, Second, and Third Laws (07) Weight, Perceived Gravity, and Weightlessnes (08) Frictional Forces (09) Review of Lectures 1 through 5 (10) Hookes Law, Simple Harmonic Oscillator (11) Work, Energy, and Universal Gravitation (12) Resistive Forces (13) Equation of Motion for Simple Harmonic Oscillators (14) Orbits and Escape Velocity (15) Momentum and its Conservation (16) Elastic and Inelastic Collisions (17) Momentum of Individual Objects (18) Review of Lectures 6 through 15 (19) Rotating Rigid Bodies, Inertia, and Axis Theorems (20) Angular Momentum (21) Torque (22) Keplers Laws, Elliptical Orbits, and Change of Orbits (23) Doppler Effect, Binary Stars, Neutron Stars and Black Holes (24) Rolling Motion, Gyroscopes (25) Static Equilibrium, Stability, Rope Walker (26) Elasticity and Youngs Modulus (27) Gases and Incompressible Liquids (28) Hydrostatics, Archimedes Principle, and Fluid Dynamics (29) Review of Lectures 16 through 24 (30) Simple Harmonic Oscillations of Suspended Solid Bodies (31) Pendulums and Springs (32) Thermal Expansion (33) IdealGas Law (34) Heisenbergs Uncertainty Principle (35) Professor Lewins Early days at MIT (08) Polarization and Dielectrics (16) Electromagnetic Induction
43 video(s) at yovisto

For the Love of Physics
(Lewin)

Physics 8.03 Vibrations and Waves
(Lewin)

(06) Newtons Laws
(Lewin)

(14) Orbits and Escape Velocity
(Lewin)

(00) Introduction
(Lewin)

(01) Units, Dimensions, and Scaling Arguments
(Lewin)

(02) Introduction to Kinematics
(Lewin)

(03) Kinematics
(Lewin)

(03) Vectors
(Lewin)

(04) The Motion of Projectiles
(Lewin)

(05) Uniform Circular Motion
(Lewin)

(06) Newtons First, Second, and Third Laws
(Lewin)

(07) Weight, Perceived Gravity, and Weightlessnes
(Lewin)

(08) Frictional Forces
(Lewin)

(09) Review of Lectures 1 through 5
(Lewin)

(10) Hookes Law, Simple Harmonic Oscillator
(Lewin)

(11) Work, Energy, and Universal Gravitation
(Lewin)

(12) Resistive Forces
(Lewin)

(13) Equation of Motion for Simple Harmonic Oscillators
(Lewin)

(14) Orbits and Escape Velocity
(Lewin)

(15) Momentum and its Conservation
(Lewin)

(16) Elastic and Inelastic Collisions
(Lewin)

(17) Momentum of Individual Objects
(Lewin)

(18) Review of Lectures 6 through 15
(Lewin)

(19) Rotating Rigid Bodies, Inertia, and Axis Theorems
(Lewin)

(20) Angular Momentum
(Lewin)

(21) Torque
(Lewin)

(22) Keplers Laws, Elliptical Orbits, and Change of Orbits
(Lewin)

(23) Doppler Effect, Binary Stars, Neutron Stars and Black Holes
(Lewin)

(24) Rolling Motion, Gyroscopes
(Lewin)

(25) Static Equilibrium, Stability, Rope Walker
(Lewin)

(26) Elasticity and Youngs Modulus
(Lewin)

(27) Gases and Incompressible Liquids
(Lewin)

(28) Hydrostatics, Archimedes Principle, and Fluid Dynamics
(Lewin)

(29) Review of Lectures 16 through 24
(Lewin)

(30) Simple Harmonic Oscillations of Suspended Solid Bodies
(Lewin)

(31) Pendulums and Springs
(Lewin)

(32) Thermal Expansion
(Lewin)

(33) IdealGas Law
(Lewin)

(34) Heisenbergs Uncertainty Principle
(Lewin)

(35) Professor Lewins Early days at MIT
(Lewin)

(08) Polarization and Dielectrics
(Lewin)

(16) Electromagnetic Induction
(Lewin)
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