1. Electromagnetism; 2. Differential calculus of vector fields; 3. Vector integral calculus; 4. Electrostatics; 5. Application of Gauss' law; 6. The electric field in various circumstances; 7. The electric field in various circumstances (continued); 8. Electrostatic energy; 9. Electricity in the atmosphere; 10. Dielectrics; 11. Inside dielectrics; 12. Electrostatic analogs; 13.
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Magnetostatics; 14. The magnetic field in variuos situations; 15. The vector potential; 16. Induced currents; 17. The laws of induction; 18. The Maxwell equations; 19. The principle of least action; 20. Solutions of Maxwell's equations in free space; 21. AC circuits; 23. Cavity resonators; 24. Waveguides; 25. Electrodynamics in relativistic notation; 26. Lorentz transformations of the fields; Field energy and field mamentum; 28. Electromagnetic mass; 29. The motion of charges in electric and magnetic fields; 30. The internal geometry of crystals; 31. Tensors; 32. Refractive index of dense materials; 33. Reflection from surfaces; 34. The magnetism of matter; 35. Paramagnetism and magnetic resonance; 36. Ferromagnetism; 37. Magnetic materials; 38. Elasticity; 39. Elastic materials; 40. The flow of dry water; 41. The flow of wet water; 42. Curved space; Index (1-6).