An understanding of the laws governing the behaviour and interaction of electric and magnetic fields are fundamental to the implementation of many of the technologies used in the modern technological world. This advanced course in electromagnetism covers the topics of Electromagnetic (EM) fields and waves, transmission lines, waveguides and antennas; at a level to meet the needs of science and engineering students who are interested in electrical, computer and telecommunications engineering; as well as information transmission via wired links, radio channels, and optical fibre networks.
- Semester 1 - 2016
1. Have a knowledge of the theory of EM wave generation and propagation
2. Be able to apply this knowledge in practical situations
3. Be able to solve relevant theoretical problems
- Review of Maxwell equations for static fields,
- Review of phasor notation and complex representation,
- Faraday's Law
- Displacement current
- Full Maxwell equations
- Plane wave formalism
- Electromagnetic waves propagation constant
- Skin depth
- Poynting vector and power flow
- Electromagnetic wave propagation in unbounded media
- Reflection and transmission of EM waves at plane boundaries
- Transmission line theory
- Impedance and matching
- Standing Wave Ratio(SWR)
- Electromagnetic propagation in waveguides
- Antenna theory
- Basic types and designs.
PHYS1220 and MATH2310.
Written Assignment: Written Assignments
Tutorial / Laboratory Exercises: Laboratory Reports
Formal Examination: Final Examination
In order to pass this course, each student must complete ALL of the following compulsory requirements:
General Course Requirements:
- Laboratory: Induction Requirement - Students must attend and pass the induction requirements before attending these sessions. - In order to participate in this course students must complete a compulsory safety induction.
Face to Face On Campus 3 hour(s) per Week for 8 Weeks
Face to Face On Campus 2 hour(s) per Week for Full Term
Face to Face On Campus 1 hour(s) per Week for Full Term