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Classical Electrodynamics - PHYS301

This course extends our development of the classical theory of electromagnetism, the first example of a unified theory in physics and the origin of the concept of fields. We build on the differential Maxwell equations introduced in PHYS202 and its focus on statics to formulate the full dynamical description of electromagnetism in free space and in materials. The techniques developed in this unit provide tools for solving practical problems in power generation and transmission, circuits, radiation and optics, and is essential training for more advanced courses in physics. Topics include electromagnetic waves in vacuum and lossy dielectrics; energy and momentum in electromagnetism; the potential formulation of Maxwell’s equations and gauge transformations; phase and group velocities and dispersion; complex field representations and Fourier transforms; causality and Kramers-Krönig relations; special relativity, Lorentz transformations, and the Lorentz invariance of the Maxwell equations. An advanced laboratory program provides the opportunity for students to develop skills in self-directed experimental physics using a wide variety of measurement techniques and equipment.

Credit Points: 3
When Offered:

S1 Day - Session 1, North Ryde, Day

Staff Contact(s): Associate Professor Alex Fuerbach
Prerequisites:

MATH235 and PHYS201 and PHYS202 Prerequisite Information

Corequisites:

NCCW(s):
Unit Designation(s):

Engineering

Science

Unit Type:
Assessed As: Graded
Offered By:

Department of Physics and Astronomy

Faculty of Science and Engineering

Course structures, including unit offerings, are subject to change.
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