James S. Walker
| A. Kinematics (including vectors, vector algebra, components of vectors, coordinate systems, displacement, velocity, and acceleration) |
| 1. Motion in one dimension |
SE: 16–24, 25–37, 38–43 |
| 2. Motion in two dimensions, including projectile motion |
SE: 53–62, 63–70, 77–82, 83–85, 87–95 |
| B. Newton's laws of motion (including friction and centripetal force) |
| 1. Static equilibrium (first law) |
SE: 104–106, 146–153 |
| 2. Dynamics of a single particle (second law) |
SE: 107–109, 110–113, 118–128, 137–145, 153–163 |
| 3. Systems of two or more bodies (third law) |
SE: 114–117 |
| C. Work, energy, power |
| 1. Work and work-energy theorem |
SE: 174–179, 181–188, 216–220 |
| 2. Conservative forces and potential energy |
SE: 198–201, 202–207 |
| 3. Conservation of energy |
SE: 208–215, 221–224 |
| 4. Power |
SE: 189–191 |
| D. Systems of particles, linear momentum |
| 1. Center of mass |
SE: 257–262 |
| 2. Impulse and momentum |
SE: 234–240 |
| 3. Conservation of linear momentum, collisions |
SE: 241–245, 246–255 |
| E. Circular motion and rotation |
| 1. Uniform circular motion |
SE: 274–279, 281–285 |
| 2. Angular momentum and its conservation |
|
| —a. Point particles |
SE: 286–288, 326–334 |
| —b. Extended bodies, including rotational inertia |
SE: 289–294 |
| 3. Torque and rotational statics |
SE: 307–309, 313–323 |
| 4. Rotational kinematics and dynamics |
SE: 310–311, 324–325, 335 |
| F. Oscillations and gravitation |
| 1. Simple harmonic motion (dynamics and energy relationships) |
SE: 383–391 |
| 2. Mass on a spring |
SE: 393–400 |
| 3. Pendulum and other oscillations |
SE: 401–409 |
| 4. Newton's law of gravity |
SE: 348–355 |
| 5. Orbits of planets and satellites |
|
| —a. Circular |
SE: 359–361 |
| —b. General |
SE: 356–358, 363–371 |
| A. Electrostatics |
| 1. Charge, field, and potential |
SE: 610–614, 662–623, 646–649 |
| 2. Coulomb's law and field and potential of point charges |
SE: 614–621, 623–629, 652, 658 |
| 3. Fields and potentials of other charge distributions |
|
| —a. Planar |
SE: 648–658 |
| —b. Spherical symmetry |
SE: 621–622 |
| —c. Cylindrical symmetry |
SE: 636 |
| 4. Gauss's law |
SE: 634–636 |
| B. Conductors, capacitors, dielectrics |
| 1. Electrostatics with conductors |
SE: 613–614, 631–633, 659–660 |
| 2. Capacitors |
|
| —a. Parallel plate |
SE: 629–630, 661–664 |
| —b. Spherical and cylindrical |
SE: 636 |
| 3. Dielectrics |
SE: 664–667 |
| C. Electric circuits |
| 1. Current, resistance, power |
SE: 678–679, 681–684, 685–687 |
| 2. Steady-state direct current circuits with batteries and resistors only |
SE: 679,681, 688–697, 704–705 |
| 3. Capacitors in circuits |
|
| —a. Steady state |
SE: 697–700 |
| —b. Transients in RC circuits |
SE: 700–704 |
| D. Magnetostatics |
| 1. Forces on moving charges in magnetic fields |
SE: 717–726 |
| 2. Forces on current-carrying wires in magnetic field |
SE: 726–730 |
| 3. Fields of long current-carrying wires |
SE: 731, 733–734 |
| 4. Biot-Savart and Ampere's law |
SE: 731–732 |
| E. Electromagnetism |
| 1. Electromagnets induction (including Faraday's law and Lenz's law) |
SE: 750–752, 753–755, 756–759 |
| 2. Inductance (including LR and LC circuits) |
SE: 765–768, 768–769, 770–772, 792–795, 797–800 |
| 3. Maxwell's equations |
SE: 818, 1013 |
| A. Wave motion (including sound) |
| 1. Properties of traveling waves |
SE: 418–424, 425–434 |
| 2. Properties of standing waves |
SE: 444–451 |
| 3. Doppler effect |
SE: 434–440, 823–825 |
| 4. Superposition |
SE: 440–443 |
| B. Physical optics |
| 1. Interference and diffraction |
SE: 916,922, 922–928, 928–932, 935–939, 995–996 |
| 2. Dispersion of light and the electromagnetic spectrum |
SE: 876–877, 825–828 |
| C. Geometric optics |
| 1. Reflection and refraction |
SE: 849–851, 864–870, 888–892 |
| 2. Mirrors |
SE: 851–859, 859–863 |
| 3. Lenses |
SE: 871–876, 892–898, 898–907 |
