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 640-225 Electromagnetism & Relativity (Adv)

Note

Credit cannot be gained for both 640-225 and any of 640-245, 640-221 and 640-241 listed in the 1998 Handbook.

Credit Points

12.5

HECS Band

2

Coordinator

Prof B H J McKellar; Dr R L Webster

Prerequisites

Physics 640-121 plus 640-122 or 640-141 plus 640-142; mathematics 620-231 or 620-233 and one of 620-113, 620-123 or 620-143; or equivalent

Semester

2 (view timetable)

Contact

36 lectures and 12 1-hour tutorials

Subject Description

This introduces two fundamental areas of physics:

  • An introduction to Maxwell's equations in differential form. This subject will show how Maxwell's equations provide a unified understanding of electrical, magnetic and optical phenomena; how they can be applied to simple problems, including those involving dielectric and magnetic media; how they play a key role in a wide range of processes in science and engineering. Content includes scalar and vector potentials; dielectric and magnetic materials: field vectors P, D, M, H; boundary conditions for field vectors; magnetic circuits; energy density of electric and magnetic fields; simple boundary value problems; and electromagnetic waves: in vacuum and simple dielectrics, wave equations, Poynting's vector.

  • Einstein's Special Theory of Relativity. The difficulties faced by physics at the end of the 19th Century and the revolution that was necessary in concepts of motion, space, time and mass will be explained. Applications to phenomena involving high speed particles will be addressed. Topics include inertial frames; Einstein's postulates; Lorentz transformations; modifications to kinematics and Newtonian mechanics; causality and the speed of light as the limiting speed; four-vector formulation; spacetime interval; high energy collisions; equivalence of mass and energy; experimental tests; and physical introduction to the equivalence principle and general relativity.

Students will develop skills in the analytic and computational techniques required to solve problems in electromagnetism and special relativity.

Assessment

A 3-hour end-of-semester written examination plus tests, projects and/or assignments, set during the semester, which may account for up to 20% of the final marks.

Prescribed Texts
  • R H Good, Classical Electromagnetism. Saunders.
  • E F Taylor and J A Wheeler, Spacetime Physics. 2nd ed., Freeman.
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Prev 640-223 Quantum Mechanics & Thermal Physics(Adv)
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