Lecture Notes 16: Magnetic Vector Potential, A; B = Curl A, Magnetostatic Boundary Conditions
Lecture Notes 14: Electromagnetic Radiation from An Arbitrary Source, Radiation Reaction on a Moving Point Charge
Lecture Notes 14.5: Classical Non-Relativistic Theory of Scattering of EM Radiation, Thomson and Rayleigh Scattering
Lecture Notes 13: Steady Electric Currents, Magnetic Field, B
Lecture Notes 12: Microscopic Theory of Dielectrics, Clausius-Mossotti Eqn, Langevin and DeBye Eqns; Ferro-, Piezo- and Pyro-Electric Materials
Lecture Notes 12: Lienard-Wiechert Retarded Potentials for Moving Point Charge, Retarded Electric and Magnetic Fields Associated with Moving Point Charge
Lecture Notes 11: Potentials and Fields, Potential Formulation, Gauge Transformations, Jefimenko's Equations, Feynman-Heaviside Eqns for Moving Point Charge
Lecture Notes 10: Electrostatic Fields Inside A Dielectric, Boundary Conditions on E, D and P
Lecture Notes 09: Electrostatic Fields In Matter, Dielectric Materials and Their Properties
Lecture Notes 09: AC EM Electromagnetic Fields Associated with a Circular Parallel-Plate Capacitor
Lecture Notes 07: Laplace`s Equation
Lecture Notes 04: Work and Electrostatic Energy
Lecture Notes 03: Conservation Laws (Continued): Conservation of Angular Momentum
Lecture Notes 02: Conservation Laws (Continued): Conservation of Linear Momentum, Maxwell's Stress Tensor
Lecture Notes 01: Introduction/Overview, Coulomb's Law, Electric Field, Principle of Superposition
Lecture notes - Theoretical Physics
lecture notes - Particle Physics, Lund University
Lecture notes - Oxford Physics
