Basic HTML Version
Course
Pro-forma
Bachelor of Engineering (Electrical)
Code
KEEE3213
Title
Electromagnetic Theory
Pre-requisite
KEEE 1123
Student Learning Time (SLT)
120 hours
Credit
3
Learning Outcomes
1.
Apply Faradays law of electromagnetic induction and
Maxwell equations that predicts the existence of
electromagnetic waves.
2.
Use the laws governing the reflection and refraction of plane
waves
3.
Explain wave behaviour along uniform guiding structures.
4.
Summarize radiation fields and properties of an elemental
electric dipole.
Synopsis
Starting with fundamental postulates of electromagnetism,
Faradays law is introduced, leading to the discussion on Maxwells
equations. The study of uniform plane wave includes the
propagation of time harmonic plane wave in an unbounded
homogeneous medium,
Assessment
40 % Continuous Assessments
60 % Final Examination
References
1.
David K. Cheng,Fundamental of Engineering
Electromagnetics, Addison Wesley, 1993
2.
William H. Hyatt, “Engineering Electromagnetics”, McGraw-
Hill., 1958
Soft Skills
Communication Skills (CS1, CS2)
Critical Thinking & Problem Solving (CT1, CT2, CT3)
Team Working Skills (TS1, TS2)
Lifelong Learning & Information Management (LL1)