Correlations

Physics, 5th Edition ©2003

Jerry D. Wilson and Anthony J. Buffa

Correlated to: Advanced Placement* (AP*) Course Content Outline, Physics B & C (Grades 9–12)

SE = Student Edition
TE = Teacher Edition

I. Newtonian mechanics

A. Kinematics (including vectors, vector algebra, components of vectors, coordinate systems, displacement, velocity, and acceleration)
1. Motion in one dimension	SE/TE: 32–63
2. Motion in two dimensions, including projectile motion	SE/TE: 64–102
B. Newton's laws of motion (including friction and centripetal force)
1. Static equilibrium (first law)	SE/TE: 103–106, 115–140
2. Dynamics of a single particle (second law)	SE/TE: 106–113, 115–140
3. Systems of two or more bodies (third law)	SE/TE: 113–115, 115–140
C. Work, energy, power
1. Work and work-energy theorem	SE/TE: 141–154, 171–178
2. Conservative forces and potential energy	SE/TE: 154–159, 174–178
3. Conservation of energy	SE/TE: 157–167, 174–178
4. Power	SE/TE: 167–170, 176–178
D. Systems of particles, linear momentum
1. Center of mass	SE/TE: 202–208, 216–218
2. Impulse and momentum	SE/TE: 179–187, 210–218
3. Conservation of linear momentum, collisions	SE/TE: 187–202, 213–218
E. Circular motion and rotation
1. Uniform circular motion	SE/TE: 226–233, 254–259
2. Angular momentum and its conservation
—a. Point particles	SE/TE: 287–288, 300–304
—b. Extended bodies, including rotational inertia	SE/TE: 288–294, 300–304
3. Torque and rotational statics	SE/TE: 260–274, 294–304
4. Rotational kinematics and dynamics	SE/TE: 219–235, 253–259, 274–287, 297–304
F. Oscillations and gravitation
1. Simple harmonic motion (dynamics and energy relationships)	SE/TE: 444–457, 471–474
2. Mass on a spring	SE/TE: 445–452, 471–474
3. Pendulum and other oscillations	SE/TE: 453–454, 472–474
4. Newton's law of gravity	SE/TE: 236–243, 257–259
5. Orbits of planets and satellites
—a. Circular	SE/TE: 245–249, 258–259
—b. General	SE/TE: 243–253, 258–259

II. Fluid Mechanics and Thermal Physics

A. Fluid Mechanics
1. Hydrostatic pressure	SE/TE: 311–321, 338–344
2. Buoyancy	SE/TE: 322–326, 340–344
3. Fluid flow continuity	SE/TE: 326–328, 341–344
4. Bernoulli's equation	SE/TE: 328–331, 341–344
B. Temperature and heat
1. Mechanical equivalent of heat	SE/TE: 372–373
2. Heat transfer and thermal expansion	SE/TE: 356–360, 369–371, 387–397, 400–402
C. Kinetic theory and thermodynamics
1. Ideal gases
—a. Kinetic model	SE/TE: 360–366, 371
—b. Ideal gas law	SE/TE: 350–355, 368–369
2. Laws of thermodynamics
—a. First law (including processes on pV diagrams)	SE/TE: 404–418, 436–443
—b. Second law (including heat engines)	SE/TE: 418–435, 438–443

III. Electricity and Magnetism

A. Electrostatics
1. Charge, field, and potential	SE/TE: 513–520, 526–533, 539–544, 545–558, 572–576
2. Coulomb's law and field and potential of point charges	SE/TE: 520–530, 540–544, 549–553, 572–573
3. Fields and potentials of other charge distributions
—a. Planar	SE/TE: 530–533
—b. Spherical symmetry	SE/TE: 530–533
—c. Cylindrical symmetry	SE/TE: 530–533
4. Gauss's law	SE/TE: 537–538, 543–544
B. Conductors, capacitors, dielectrics
1. Electrostatics with conductors	SE/TE: 533–537, 542–544, 557–558
2. Capacitors
—a. Parallel plate	SE/TE: 559–562, 574–576
—b. Spherical and cylindrical	SE/TE: 559–562, 574–576
3. Dielectrics	SE/TE: 562–566, 575–576
C. Electric circuits
1. Current, resistance, power	SE/TE: 577–600
2. Steady-state direct current circuits with batteries and resistors only	SE/TE: 601–616, 627–633
3. Capacitors in circuits
—a. Steady state	SE/TE: 567–570, 575–576
—b. Transients in RC circuits	SE/TE: 616–619, 630–633
D. Magnetostatics
1. Forces on moving charges in magnetic fields	SE/TE: 634–643, 662–668
2. Forces on current-carrying wires in magnetic field	SE/TE: 644–650, 664–668
3. Fields of long current-carrying wires	SE/TE: 650–654, 666–668
4. Biot-Savart and Ampere's law	SE/TE: 650
E. Electromagnetism
1. Electromagnets induction (including Faraday's law and Lenz's law)	SE/TE: 669–688, 695–701
2. Inductance (including LR and LC circuits)	SE/TE: 702–722
3. Maxwell's equations	SE/TE: 688–689

IV. Waves and Optics

A. Wave motion (including sound)
1. Properties of traveling waves	SE/TE: 457–465, 474–475
2. Properties of standing waves	SE/TE: 465–470, 475–476
3. Doppler effect	SE/TE: 496–501, 510–511
4. Superposition	SE/TE: 460–464, 475
B. Physical optics
1. Interference and diffraction	SE/TE: 779–796, 808–812
2. Dispersion of light and the electromagnetic spectrum	SE/TE: 691–694, 700–701, 738–740, 745–746
C. Geometric optics
1. Reflection and refraction	SE/TE: 723–738, 742–746
2. Mirrors	SE/TE: 747–760, 773–778
3. Lenses	SE/TE: 760–772, 776–778

V. Atomic and Nuclear Physics

A. Atomic physics and quantum effects
1. Photons and the photoelectric effect	SE/TE: 875–883, 898–901
2. Atomic energy levels	SE/TE: 886–892, 900–901, 910–920, 926
3. Wave-particle duality	SE/TE: 883–886, 902–909, 925–927
B. Nuclear physics
1. Nuclear reactions (including conservation of mass number and charge)	SE/TE: 928–944, 958–962, 963–977, 987–991
2. Mass-energy equivalence	SE/TE: 944–949, 960–962

Reference: http://apcentral.collegeboard.com/