EEAP 210: Electromagnetic Field Theory I

Spring 1983, Prof. Frank Merat

This Web site contains archival material for the above listed class.

The course textbook was Paul and Naser, Introduction to Electromagnetic Fields.

These are scans of nearly 20 year old material so the quality of some of the scans is not too good.

Part 1 Vectors, divergence, curl, circulation, vector fields, Gauss' Law, electrostatic potential, electric dipole (PDF, 6.36 MB)
Part 2 Conductors, dielectrics, polarization, electric boundary conditions, Laplace and Poisson's equation, capacitancem parallel plate capacitor (PDF, 2.96 MB)
Part 3 Biot-Savart Law, Ampere's Law, magnetic fields, coaxial lines, scalar potential, vector potential, magnetic dipole, current loops, toroids, magnetization of matter, ferromagnets, magnetic boundary conditions, reluctance, magnetic circuits, permanent magnets (PDF,4.87 MB)
Part 4 Energy stgored in fields, capacitance, inductance, electromagnetic forces, time dependent Maxwell's equations, homopolar generator, transmission lines (PDF, 2.84 MB)
Part 5 Crank diagram, reflection coefficients and terminations, pulses on transmission lines, SWR, Laplace's equation, boundary conditions, separation of variables (PDF, 3.60 MB)
Part 6 Hemholtz equation, solutions in cylindrical and spherical coordinates, unifrom plane waves, wave equation, propagation in lossy media, group and phase velocity, Poynting vector, reflection and transmission at dielectric interfaces, polarization, skin depth, reflection from conductors, Fresnel equations (PDF, 4.41 MB)

Homework Assignments Homework - Single file containing all problem solutions (PDF, 9.86 MB)

Exams Exams Solutions to three exams, a makeup exam, and a final exam (PDF, 9.97 MB)

Created: 2002-3-9. Last Modified: 2002-3-9.