Electrical and Comp Engineerng
EECE 7202: Electromagnetic Theory 1
Lecture - 4 credits
ND
EI
IC
FQ
SI
AD
DD
ER
WF
WD
WI
EX
CE
- Examines the fundamental equations, their physical meaning, principal mathematical techniques, and important engineering applications.
- Topics include sources of the electromagnetic field, Lorentz force equation, integral form of Maxwell's equations and point relations (differential equations and boundary conditions), electromagnetic energy and power, propagation of uniform and nonuniform plane waves in homogeneous media, reflection and refraction, scalar and vector potentials, solutions in the absence of boundaries for static and dynamic problems, solutions to boundary value problems, duality, uniqueness, images, physical theory of diffraction, and general theory of metal and dielectric wave-guides and resonators for Cartesian and cylindrical systems.
Examines the fundamental equations, their physical meaning, principal mathematical techniques, and important engineering applications. Show more.