1. Vector Calculus 2. The Physical Signatures of Three Important Partial Differential Equations 3. A Bird's Eye View of Electromagnetism 4. The Foundations of Electrostatics 5. Solving for Electrostatic Fields, the Multipole Expansion and Electrostatic Energy 6. Dielectrics 7. Magnetostatics I: The Magnetic Field, Ampere's Law and the Biot-Savart Law 8.

8 Magnetostatics II: Dipoles, Force Distributions and Energy 9. Magnetic Fields in Matter 10. Faraday's Law of Electromagnetic Induction 11. Quasi-Static Magnetic Fields: Magnetic Energy and Inductance 12. Transient and AC Circuits 13. Static Versus Dynamic Fields: Maxwell's Equations 14. Confined Waves: Transmission Lines, Waveguides and Resonant Cavities 15. Maxwell's Equations in Free Space I: the Propagation of Waves 16.

Maxwell's Equations in Free Space II: Radiation 17. Maxwell's Equations in Free Space III: the Fields of Moving Charges 18. Maxwell's Equations in Dielectric and Magnetic Materials 19. Plane Waves in Stationary Dielectrics and Conductors 20. Magnetoydrodynamics I: Governing Equations and Kinematic Theorems 21. Magnetohydrodynamics II: Fusion Plasmas, Alfven Waves, Planetary Dynamos and Stellar Magnetism 22. An Introduction to Special Relativity 23. Electromagnetism and Special Relativity.