At the end of this course, the students; 1) Gain problem solving ability. 2) Determine the field vectors caused by charge and current distributions in electrostatic and magnetostatic problems. 3) Know and use the laws constituting bases for the Maxwell's Laws in their differential and integral forms. 4) Calculate the capacitance and inductance values for given geometries. 5) Comment on some natural phenomena based on theoretical knowledge.
MODE OF DELIVERY
Face to face
PRE-REQUISITES OF THE COURSE
Yes(EEE226)
RECOMMENDED OPTIONAL PROGRAMME COMPONENT
MATH222
COURSE DEFINITION
Summary of vector algebra, coordinate systems and coordinate transformations. Time varying electric and magnetic fields, Faraday?s law of induction, transformers, sinusoidally time-varying (harmonic) electromagnetic (EM) fields, Maxwell?s equations, second order differential equations, EM wave equation, homogenous plane EM waves, Doppler effect, perfect or good conducting and insulating materials, EM polarization, power density, average power, EM waves near the boundaries, angles of incidence, transmission lines (TL), generalized TL equations, finite lines, reflection, standing waves
COURSE CONTENTS
WEEK
TOPICS
1st Week
Faraday law, quasi-static fields
2nd Week
Time varying fields, displacement current, potential functions