Electricity and Magnetism - Spring 2010
Dr. John Stewart
Home
Lectures
Homework
Tests
Grades
Syllabus
Office Hours
Week 1 - Mathematics Review
Vectors
Vector Operators
Curvilinar Coordinates
Integral Theorems
Delta Functions
Helmholtz Theorem
Week 2 - Electrostatics Part I
Solutions to E.1.1
Review of Maxwell's Equations
Work and Potential
Coulomb's Law
Gauss' Law
Week 3 - Electrostatics Part II
Force and Pressure
Electrostatic Boundary Conditions
Electrostatic Energy
Capacitance
Week 4 - Boundary Value Problems
Introduction and Uniqueness
Laplace in Cartesion
Laplace in Spherical
Laplace in Cylindical
Bessel Functions (not required)
Week 5
Another Spherical Example
Images Part I
Images Part II
Multipole Expansion
Week 6
Polarization
Displacement
Week 7
Boundary Value Problems with Dielectrics
Work and Energy with Dielectrics
Current
Biot-Savart Law
Maxwell's Equations for Magnetostatics
Week 8
Ampere's Law
Vector Potential
More Vector Potential
Magnetic Mulitple Expansion
Magnetic Force (Currents)
Week 9
Magnetic Force (Particles)
Displacement Field Review
Magnetization
The H Field
Week 10
Linear Magnetic Materials
Magnetic Circuits
Test 2 Review
Ferromagnetism
Magnetic Force and Torque
Week 11
Conduction
Electromotive Force I
Electromotive Force II
Week 12
Inductance
Magnetic Energy
Ampere's Law for Electrodynamics
Maxwell's Equations
Week 13
Conservation of Energy
Conservation of Momentum
Conservation of Angular Momentum
Week 14
Electromagnetic Waves I
Complex Numbers
Phase
Wave Equation
Electromagnetic Waves II
Waves and Energy
Week 15
Waves in Linear Media
Waves in Conductors
Reflection at Conducting Surfaces
Attenuation
Wave Guides