Foundations of Electromagnetic Theory

1. Vector Analysis.


2. Electrostatistics.


3. Solution of Electrostatic Problems.


4. The Electrostatic Field in Dielectric Media.


5. Microscopic Theory of Dielectrics.


6. Electrostatic Energy.


7. Electric Current.


8. The Magnetic Field of Steady Currents.


9. Magnetic Properties of Matter.


10. Microscopic Theory of Magnetism.


11. Electromagnetic Induction.


12. Magnetic Energy.


13. Slowly Varying Currents.


14. Physics of Plasmas.


15. Electromagnetic Properties of Superconductors.


16. Maxwell's Equations.


17. Propagation of Monochromatic.


18. Monochromatic Waves in Bounded Regions.


19. Dispersion and Oscillating Fields in Dispersive Media.


20. The Emission of Radiation.


21. Electrodynamics.


22. The Special Theory of Relativity.


Appendix I: Computers and Electromagnetic Theory.


Appendix II: Coordinate Transformations, Vectors, and Tensors.


Appendix III: Systems of Units.


Appendix IV: Vector Differential Operators.


Appendix V: The Dirac Delta Function.


Appendix VI: Fourier Integrals and Fourier Transforms.


Appendix VII: Functions of a Complex Variable.


Answers to Odd-Numbered Problems.


Index.