• Review of Scalar and Vector Fields
  • Static Electric Fields in Free Space ◦Gauss Law
  • Poisson and Laplace Equations
  • Steady Magnetic Fields of currents in Space
  • Ampere's Circuital Law ◦Field Distributions in Material Media
  • Boundary Conditions
  • Time Varying Fields, Maxwell Equations in differential and Integral Forms, thier interpratation and Physical Significance
  • Plane Transient and Steady Solution of Transmission line Problems

This course requires a background knowledge of Electromagnetic Fields and Waves principles, a course with the code EEE 301. Therefore, the course EEE 301 is a pre-requisite to this course.

Course Content:

  • Review of transmission line theory.
  • Use of Smith Chart
  • Single and Double-stub matching on line
  • Quarter-wave line as an impedance transformer
  • Propagation in common waveguides
  • Attenuation in guides
  • Guide terminations
  • Antennas
  • Introduction to radiowave propagation in the Medium Frequency and High Frequency bands
  • High Frequency communication on power lines

Synchronous  Generator,

Synchronous Motor

Induction motor