Disclaimer: These notes were transcribed from the handwritten notes that were used for the course lectures, and may contain typographical errors. Please use the feedback link at the top of this page to let us know about those you may find. Some of the illustrative figures from other sources are absent due to copyright restrictions.
This course was based off of lecture notes by Professor Ian Hutchinson from a previous year. These notes are provided below, with permission from the instructor.
Maxwell's Equations and Electromagnetic Fields (
PDF - 5.6 MB)
Introduction
Vector Calculus and Notation
Electrostatics and Gauss' Theorem
Electric Current in Distributed Media
Magnetic Potential
Electromagnetism and Magnets
Particle Motion in Electric and Magnetic Fields (
PDF)
Electric Field Alone
Electrostatic Acceleration and Focussing
Uniform Magnetic Field
Dynamic Accelerators
Magnetic Quadrupole Focussing (Alternating Gradient)
Force on Distributed Current Density
Dynamics of the Electromagnetic Fields (
PDF)
Maxwell Displacement Current
Field Dynamics, Energy and Momentum
Inductance, Energy, and Magnet Stresses
Potentials for Time Varying Fields
Advanced and Retarded Solutions
Radiation By Moving Charges (
PDF)
Potentials and Fields of a Moving Point Charge
Potential of a Point Charge in Uniform Motion
Fields of a Generally-Moving Charge
Radiation from Moving Charges
Radiation from Relativistic Particles
Scattering of Electromagnetic Radiation
Atomic Structure and Processes (
PDF)
Elementary Atomic Structure
Atomic Processes in Electromagnetic Interactions
The Photoelectric Effect
Electrons and Pair Production
Elastic Collisions
Inelastic Collisions
Angular Scattering from Nuclei
Summary
Radiation from Charged Particle Interaction with Matter (
PDF)
Bremsstrahlung
C 20 Cerenkov Radiation