Lecture notes
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Relativistic fields and potentials[http://ticc.mines.edu/csm/wiki/images/3/37/Lecture19_CovariantEM.pdf] | Relativistic fields and potentials[http://ticc.mines.edu/csm/wiki/images/3/37/Lecture19_CovariantEM.pdf] | ||
| − | + | Supplement: Matrix operations with index notation[http://ticc.mines.edu/csm/wiki/images/a/a6/SupplementIndices_Matrices.pdf] | |
| − | + | Field transformations[http://ticc.mines.edu/csm/wiki/images/2/20/Lecture20_FieldTransforms.pdf] | |
| − | Magnets | + | Momentum in electromagnetic fields[http://ticc.mines.edu/csm/wiki/images/1/1a/Lecture21_EMStressEnergyMomentum.pdf] |
| + | |||
| + | Magnets: How do they work? | ||
Latest revision as of 00:12, 19 November 2012
Intro & Helmholtz theorem[1]
Ampere Maxwell equation[2]
Vector potentials & gauges[3]
Supplement: Aharonov-Bohm effect[4]
Aharonov-Bohm in Physical Review, with a familiar author[5]
Fields, energy, and momentum[6]
Electromagnetic waves[7]
Reflection, refraction, evanescence[8]
Transmission and reflection[9]
Fresnel equations[10]
Dispersion, group and phase velocities[11]
Waveguides[12]
Moar waveguides[13]
Retarded potentials[14]
Dipole radiation[15]
Supplement: Retarded derivatives[16]
Monopole radiation; Larmor formula[17]
Scattering[18]
Lienard-Wiechert potentials[19]
Relativity intro[20]
Minkowski formulation of relativity[21]
Relativistic fields and potentials[22]
Supplement: Matrix operations with index notation[23]
Field transformations[24]
Momentum in electromagnetic fields[25]
Magnets: How do they work?
