Lectures (Video)
- 1. Electric Charges
- 2. Electric Field and Dipoles
- 3. Electric Flux and Gauss's Law
- 4. Electrostatic Potential
- 5. Conductors and Electrostatic Shielding
- 6. High-Voltage Breakdown
- 7. Capacitance
- 8. Polarization and Dielectrics
- 9. Currents and Resistivity
- 10. Energy Conservation and Kirchhoff's Rules
- 11. Magnetic field and Lorentz Force
- 12. Review
- 13. Cyclotron, Synchrotron and Mass Spectrometer
- 14. Biot-Savart Law
- 15. Ampere's Law and Solenoids
- 16. Electromagnetic Induction and Faraday's Law
- 17. Dynamos and Eddy Currents
- 18. Displacement Current and Motors
- 19. Electrocardiogram and Superconductivity
- 20. Inductance
- 21. Magnetic Materials
- 22. Hysteresis and Maxwell's Equations
- 23. Review II
- 24. Transformers
- 25. Resonance
- 26. Traveling and Standing Waves
- 27. Resonance and Electromagnetic Waves
- 28. Polarization
- 29. Snell's Law and Huygens's Principle
- 30. Polarizers
- 31. Rainbows
- 32. Review III
- 33. Interferometers
- 34. Single-Slit Diffraction
- 35. Doppler Effect and Cosmology
- 36. Special Lecture
Electricity and Magnetism - Lecture 22
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Lecture 22 - Hysteresis and Maxwell's Equations
Hysteresis
Prof. Walter Lewin
8.02 Electricity and Magnetism, Spring 2002 (Massachusetts Institute of Technology: MIT OpenCourseWare) http://ocw.mit.edu Date accessed: 2011-10-10 License: Creative Commons BY-NC-SA |