12830 (v.2) Electromagnetics 303

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Area:	Department of Electrical and Computer Engineering
Contact Hours:	5.0
Credits:	25.0
Lecture:	1 x 3 Hours Weekly
Tutorial:	1 x 1 Hours Weekly
Laboratory:	1 x 2 Hours Fortnightly
Prerequisite(s):	12743 (v.2) Mathematics 278 or any previous version     OR     2170 (v.1) Mathematics 276 or any previous version
Transmission line theory - transmission line model and equations, solution of transmission line equations, transient waveforms on transmission lines, steady state sinusoidal analysis for transmission lines. Electromagnetism - review of vector calculus. Electrostatics - Coulombs law, electric field intensity, electric flux density, Gauss' law, potential difference, conservative and irrotational nature of electric field, determining electric field from electric potential. Electric fields in material media - conduction and convection currents, Ohm's law, resistance, conservative electric fields, electromotive force, Approaching electrostatic equilibrium, model for a dielectric, dipole and dipole moment, polarization, electric field in a dielectric material,boundary conditions. Magnetostatics - magnetic force, magnetic flux density, Ampere's law of force, Biot Savart law, Ampere's circuital law, vector magnetic potential, divergence of magnetic flux. Magnetic fields in material media - diamagnetic, paramagnetic and ferromagnetic materials, magnetic dipole moment, magnetisation, magnetic susceptibility, magnetisation current densities, Ampere's law, Boundary conditions. Electromagnetic induction, displacement current, Maxwell's Equations.
Year Location Period Internal Area External Central External 2003 Bentley Campus Semester 1 Y     2003 Miri Sarawak Campus Semester 2 Y