AUC Banner
cat04

Main Page

Table of Contents


 

General Information

Undergraduate Studies

Graduate Studies

Research

Continuing Education & Training Programs

Appendix: Personnel & Enrollment

 

 

 

 

 

 

 

doctorate2 cafe2 study3
gradstud
 Physics Courses (PHYS)
SPNavLeft SPNavRight SPNavUp

PHYS

522

SPNavLeft SPNavRight SPNavUp

Classical Electrodynamics

 Prerequisites: PHYS 316, PHYS 505. Offered in spring.
Boundary value problems in electrostatics: Poisson and Laplace equations; Formal solution of electrostatic boundary value problem with Green function; applications in rectangular, spherical and cylindrical coordinates. Multipoles, Electrostatics of macroscopic media, dielectrics and Magnetostatics. Time-varying fields, Maxwell equations, Conservation laws for macroscopic media. Magnetohydrodynamics and Plasma Physics. Relativistic formulation of electrodynamics. Lagrangian and Hamiltonian of a relativistic charged particle in external EM fields. Radiation by moving charges and radiation scattering. Lagrangian for the EM field. Invariant Green functions.
 

3 cr.

Copyright © 2004-2005, The American University in Cairo

[Home]
[Physics Courses (PHYS)]
Physics Courses (PHYS)
AUC Banner
cat04

Main Page

Table of Contents


 

General Information

Undergraduate Studies

Graduate Studies

Research

Continuing Education & Training Programs

Appendix: Personnel & Enrollment

 

 

 

 

 

 

 

doctorate2 cafe2 study3
gradstud
 Physics Courses (PHYS)
SPNavLeft SPNavRight SPNavUp

PHYS

522

SPNavLeft SPNavRight SPNavUp

Classical Electrodynamics

 Prerequisites: PHYS 316, PHYS 505. Offered in spring.
Boundary value problems in electrostatics: Poisson and Laplace equations; Formal solution of electrostatic boundary value problem with Green function; applications in rectangular, spherical and cylindrical coordinates. Multipoles, Electrostatics of macroscopic media, dielectrics and Magnetostatics. Time-varying fields, Maxwell equations, Conservation laws for macroscopic media. Magnetohydrodynamics and Plasma Physics. Relativistic formulation of electrodynamics. Lagrangian and Hamiltonian of a relativistic charged particle in external EM fields. Radiation by moving charges and radiation scattering. Lagrangian for the EM field. Invariant Green functions.
 

3 cr.

Copyright © 2004-2005, The American University in Cairo

[Home]
[Physics Courses (PHYS)]