Coulomb's Law & Electric Field - Electric Flux & Gauss Law - Electric Potential - Capacitance - Direct Current (DC) Circuits - Magnetic Field - Ampere's Law & Magnetic Properties of Materials - Faraday's Law of Induction - Inductance - Alternating Current (AC) Circuits - Displacement Current, Maxwell's Equations, & Electromagnetic Waves - The Nature of Light & the Laws of Geometric Optics -
Homework I - (solutions) - Homework II - (solutions) - Homework III - (solutions) - Homework IV - (solutions) - Homework V - (solutions) - Homework VI - (solutions) - Homework VII - (solutions) - Homework VIII - (solutions) - Homework IX - (solutions) - Homework X - (solutions) - Homework XI - (solutions) - Homework XII - (solutions) - Homework XIII - (solutions) -
Mechanics - Mechanics (cont'd) - Mechanics (cont'd), Oscillations and Waves, Thermodynamics - Thermodynamics (cont'd), Electricity and Magnetism - Electricity and Magnetism (cont'd), Light and Optics - Light and Optics (cont'd), Modern Physics - Modern Physics (cont'd), Appendices -
Fields - Coulomb's Law - Electric Potential - Gauss' Law - Capacitance and Dielectrics - Current and Resistance - Direct-Current Circuits - Introduction to Magnetic Fields - Sources of Magnetic Fields - Faraday's Law of Induction - Inductance and Magnetic Energy - Alternating-Current Circuits - Maxwell's Equations and Electromagnetic Waves - Interference and Difraction - Geometrical Optics -
Lecture Notes
Vector Algebra; Multiple Products; Geometry Using Vectors - Differentiating Vector Functions of a Single Variable; Line, Surface and Volume Integrals, and Curvilinear Coordinates - Vector operators: Grad, Div, and Curl; Vector Operator Identities - Gauss' and Stokes' Theorems; Engineering Applications -
Slides
Lecture 1 - Lecture 2 - Lecture 3 - Lecture 4 - Surface Integral Example - Lecture 5 - Lecture 6 - Lecture 7 - Lecture 8 -