Physics > Electricity and Magnetism
Electricity and Magnetism
Watch the Electricity and Magnetism course from MIT, taught by Walter Lewin in the spring of 2002. License: Creative commons BY-NC-SA
Videos
- Lecture 1: What Holds Our World Together?
- Lecture 2: Electric Fields and Dipoles
- Lecture 3: Electric Flux and Gauss's Law
- Lecture 4: Electrostatic Potential and Electric Energy
- Lecture 5: Electrostatic Shielding (Faraday Cage)
- Lecture 6: High-Voltage Breakdown and Lightning
- Lecture 7: Capacitance and Field Energy
- Lecture 8: Polarization and Dielectrics
- Lecture 9: Currents, Resistivity and Ohm's Law
- Lecture 10: Batteries and EMF
- Lecture 11: Magnetic Fields and Lorentz Force
- Lecture 12: Review for Exam 1
- Lecture 13: Moving Charges in B-fields
- Lecture 14: Biot-Savart Law
- Lecture 15: Ampere's Law
- Lecture 16: Electromagnetic Induction
- Lecture 17: Motional EMF and Dynamos
- Lecture 18: Displacement Current and Synchronous Motors
- Lecture 19: How Do Magicians Levitate Women?
- Lecture 20: Inductance and RL Circuits
- Lecture 21: Magnetic Materials
- Lecture 22: Hysteresis and Electromagnets
- Lecture 23: Review for Exam 2
- Lecture 24: Transformers, Car Coils and RC Circuits
- Lecture 25: Driven LRC Circuits and Resonance
- Lecture 26: Traveling Waves and Standing Waves
- Lecture 27: Resonance and Destructive Resonance
- Lecture 28: Index of Refraction and Poynting Vector
- Lecture 29: Snell's Law, Refraction and Total Reflection
- Lecture 30: Polarizers and Malus's Law
- Lecture 31: Rainbows
- Lecture 32: Review for Exam 3
- Lecture 33: Double-Slit Interference and Interferometers
- Lecture 34: Gratings and Resolving Power
- Lecture 35: Doppler Effect and The Big Bang
- Lecture 36: Farewell Special