Week Due |
Exercises |
Lectures |
contact hours |
Topics List |
2 |
- |
6 |
6 |
Maxwell Equations: Maxwell's equations and its empirical basics. Electromagnetic energy, the wave equation, boundary conditions, the wave equation with sources. |
3 |
- |
9 |
9 |
Propagation of electromagnetic waves: Plane monochromatic waves in non-conducting media, polarization energy density and flux, plane monochromatic waves in conducting media and spherical waves. |
3 |
- |
9 |
9 |
Waves in selected regions: reflection and refraction at the boundaries of two non-conducting media (normal incidence and oblique incidence), complex Fernel modulus, reflection and transmittance through the thin film, propagation between parallel conductive plates, waveguide and cavity resonance. |
3 |
- |
9 |
9 |
Radiation emission: Radiation from oscillation dipole, from a half wave antenna and from a group of moving charges, radiation damping Thomson cross section. |
3 |
- |
9 |
9 |
Electrodynamics: The Linead-Wirchert potentials, the field of uniform moving point charge, the field of an accelerated point charge and radiation field for small velocities. |
Learning Resources
Text Book |
|||
Reference's name |
publisher |
Release |
Author |
Foundation of Electromagnetic Theory |
Addison-Wesley; Addison-Wesley |
4th Edition |
J.R.Reitz,F.J. Milford and R.W. Chirsty |
Additional References |
|||
Introduction to Electrodynamics |
NJ: Prentice Hall |
3rd Edition |
Griffiths, David J. |
Electromagnetic fields and waves |
W H Freeman & CoW H Freeman & Co |
3rd Edition |
P. Lorrain and D.R. Corson,F.Lorrain |