| Lecture | Date | Content | Young & Freedman 15th Ed. |
|---|
| Lecture 1 |
Jan 12 |
About the course; notation; visualization; Coulomb's law |
21.3, 21.4, 21.6 |
| Lecture 2 |
Jan 13 |
Charge; motion; superposition |
21.1, 21.4 |
| Lecture 3 |
Jan 19 |
$\vec{E}$ field calculations; charge distributions; dipoles; torques |
21.5, 21.7 |
| Lecture 4 |
Jan 20 |
Energy; work; potentials |
23.1, 23.2, 23.5 |
| Lecture 5 |
Jan 26 |
Flux; surface integrals; Gauss's law |
22.1 – 22.3; 23.3, 23.4 |
| Lecture 6 |
Jan 27 |
More on Gauss's law; conductors and insulators |
21.2, 22.3-22.5 |
| Lecture 7 |
Feb 2 |
Potential difference; batteries; capacitors |
24.1, 24.3 |
| Lecture 8 |
Feb 3 |
Dielectrics; permittivity; capacitance with a dielectric |
24.4, 24.5, 24.6 |
| Lecture 9 |
Feb 9 |
The magnetic field; moving charges; Lorentz force; work done by magnetic field |
27.1, 27.2, 28.1 |
| Lecture 10 |
Feb 10 |
Curved motion from Lorentz force; Biot-Savart law; forces on currents |
27.4, 27.6, 28.2, 28.3, 28.5 |
| Lecture 11 |
Feb 16 |
Forces and torques on currents; magnetic moments; magnetic attraction |
27.7, 28.4 |
| Lecture 12 |
Feb 17 |
More on magnetic dipoles; coils; magnetic flux; Ampère's law |
27.3, 28.6, 28.7 |
| Lecture 13 |
Feb 23 |
Magnetic materials; solenoids |
28.7, 28.8 |
| Lecture 14 |
Feb 24 |
Time dependence; emf; Induction via Faraday's law; Lenz's law |
29.1 – 29.5 |
| Lecture 15 |
Mar 2 |
Applications of induction; self-induction; magnetic field energy; Ampère-Maxwell law |
29.6 – 30.3 |
| Lecture 16 |
Mar 3 |
Maxwell's equations; electromagnetic waves |
32.1 – 32.4 |