Chapter.Section 
Topics 
Lectures 
1.1 Ð 1.13 
CoulombÕs Law, Electric Field, GaussÕs law, Surface Charge distributions, Poisson and Laplace Equations, GreenÕs Theorem, Electrostatic Energy, Capacitance, Variational and Iterative solutions to PoissonÕs equation 
5 
2.1 Ð 2.12 
Method of Images, Point charges near spherical conductors, SpereÕs with prescribed potential, Orthogonal functions and expansions, fields near corners of conductors 
4 
Exam I 
Around Oct. 9 

3.13.12 
Solutions of LaplaceÕs equations and Greens functions in spherical and cylindrical coordinate systems 
4 
4.14.7 
Multipole expansions, dielectric material, boundary conditions in the presence of dielectrics, energy storage with dielectrics, models for dielectrics 
4 
Exam II 
Around Nov. 13 

5.1Ñ5.12 5.155.18 
BiotSavart Law, AmpereÕs law, vector potential, Macroscopic equations and boundary conditions, FaradayÕs law, Energy in a magnetic field inductors and mutual inductance 
4 
6.16.9 
MaxwellÕs displacement current, vector and scalar potentials, GreenÕs function for solution of wave equation, PoyntingÕs theorem. 
4 
Final 
Dec. 2010 
