
Lecture Description
Electromagnetic Induction, Faraday's Law, Lenz Law, Complete Breakdown of Intuition, Non-Conservative Fields
Course Index
- Coulomb's Law & Electric Force
- Electric Field
- Gauss's Law & Electric Flux
- Electric Energy
- Conductor & Electrostatic Shielding
- High-Voltage Breakdown
- Capacitance & Field Energy
- Polarization & Dielectrics
- Ohm's Law, Resistivity & Currents
- Kirchhoff's Rule & Power
- Magnetic Field & Lorentz Force
- Review Exam 1
- Moving Charges in B-Fields
- Biot-Savart Law
- Ampere's Law & Solenoids
- Faraday's Law & Lenz Law
- Motional Electromotive Force
- Displacement Current
- Superconductivity and Levitating Bullet Trains
- Inductance & Magnetic Field Energy
- Dia-, Para- & Ferromagnetism
- Maxwell's Equations
- Review Exam 2
- Transformers & RC Circuits
- Resonance & Driven LRC Circuit
- Traveling Waves & Standing Waves
- Electromagnetic Waves and Radar and Lasers
- Polarization & Oscillating Charges
- Color and Reflection
- Polarizers
- Rainbows
- Review Exam 3
- Interferometers
- Telescopes
- Doppler Effect & The Big Bang
- My Early Astronomy Research Years at MIT
Course Description
8.02 is a second-semester freshman physics class in electromagnetism. The 36 video lectures on Electricity and Magnetism, by Professor Lewin, were recorded on the MIT campus during the Spring of 2002. Prof. Lewin is well-known for his dynamic and engaging lecture style.
Comments
Posting Comment...
This is also very amazing one. I never seen the measurements
of exactly same two spots in any circuit give two different
values. Explanation before test was interesting and
plausible. But the last few minutes demonstration went too
fast. How can we see it very clearly. Oscilloscope and all
other connections before eyes are needed, please.