Prentice Hall Physics: Principles with Applications, Updated AP Edition 2009 (Giancoli) Grades 9-12 C O R R E L A T E D T O Publisher Questionnaire and Florida Course Standards and Access Points for Advanced Placement Physics B - 2003420 Grades 9-12
SUBJECT: GRADE LEVEL: COURSE TITLE: COURSE CODE: SUBMISSION TITLE: TITLE ID: PUBLISHER: PUBLISHER ID: CORRELATION FLORIDA DEPARTMENT OF EDUCATION INSTRUCTIONAL MATERIALS CORRELATION ADVANCED PLACEMENT COURSE DESCRIPTION Science 9-12 Advanced Placement Physics B 2003420 Physics: Principles with Applications, Updated AP Edition 2009, (Giancoli) 1722 Pearson publishing as Prentice Hall 22-1603684-03 Committee Member Evaluation (Committee Member Use Only) CONTENT OUTLINE CODE CONTENT DESCRIPTION LESSONS WHERE CONTENT IS DIRECTLY ADDRESSED IN-DEPTH IN MAJOR TOOL (Include first page number of lesson, a link to lesson, or other identifier for easy lookup for committee member.) Thoroughly Highly Adequately Minimally Not At All I. Newtonian Mechanics A. Kinematics (including vectors, vector algebra, components of vectors, coordinate systems, displacement, velocity, and acceleration) Motion in one dimension SE: 19-25, 26-31, 31-37 TP: 37-42 2. Motion in two dimensions, including projectile motion SE: 45-53, 54-61, 62-64 TP: 43-48 B. Newton s laws of motion Static equilibrium (first law) SE: 72-75, 80-82, 84-85 TP: 49-54 2. Dynamics of a single particle (second law) SE: 75-77, 80-86, 89-93, 94-96, 106-109, 109-115, TP: 49-54 3. Systems of two or more objects (third law) SE: 77-80, 86-88, 93 TP: 49-54 C. Work, energy, power Work and work energy theorem SE: 137-141, 141-144 TP: 61-66 2. Forces and potential energy SE: 144-148, 148-149
TP: 61-66 3. Conservation of energy SE: 149-150, 150-155, 155-158 TP: 61-66 4 Power SE: 158-160 TP: 61-66 D. Systems of particles, linear momentum Center of mass SE: 182-185, 185-186 TP: 67-71 2. Impulse and momentum SE: 168-169 TP: 67-71 3. Conservation of linear momentum, collisions SE: 170-173, 173-175, 176-181 TP: 67-71 E. Circular motion and rotation Uniform circular motion SE: 106-109, 109-115, 115-117 TP: 55-60 2. Torque and rotational statics SE: 203-206, 226-229, 229-236 TP: 73-80 3. Rotational kinematics and dynamics SE: 195-200, 201-203, 206-210 TP: 73-80 4. Angular momentum and its conservation SE: 213-216 TP: 73-80 F. Oscillations and gravitation Simple harmonic motion (dynamics and energy relationships) SE: 287-289, 289-291, 292-296 TP: 87-96 2. Mass on a spring SE: 287-290 TP: 87-96 3. Pendulum and other oscillations SE: 296-297, 298-299 TP: 87-96 4. Newton s law of gravity SE: 117-120 TP: 55-60 5. a. Orbits of planets and satellites Circular SE: 121-125 TP: 55-60 b. General SE: 125-128 TP: 55-60 II. Fluid Mechanics and Thermal Physics A. Fluid Mechanics Hydrostatic pressure SE: 257-258 TP: 81-86 2. Buoyancy SE: 263-268 TP: 81-86
3. Fluid flow continuity SE: 268-269 TP: 81-86 4. Bernoulli s equation SE: 270-274 TP: 81-86 B. Temperature and heat Mechanical equivalent of heat SE: 385-386 TP: 103-108 2. Heat transfer and thermal expansion SE: 357-361; 395-402 TP: 97-102, 103-108 C. Kinetic theory and thermodynamics Ideal gases a. Kinetic model SE: 352-357, 367-371 TP: 97-102 b. Ideal gas law SE: 363-367 TP: 97-102 2. a. Laws of thermodynamics First law (including processes on pv diagrams) SE: 409-410, 410-415 TP: 109-114 b. Second law (including heat engines) SE: 415-426, 426-421, 424-429 TP: 109-114 III. Electricity and Magnetism A. Electrostatics Charge and Coulomb s law SE: 440-443, 444-449 TP: 115-122 2. Electric field and electric potential (including point charges) SE: 450-454, 454-457, 476-479 TP: 115-122, 123-128 3. Gauss s law SE: 457-459 TP: 115-122 4. Fields and potentials of other charge distributions SE: 450-454, 454-457, 458-459, 470-475, 479-480 B. Conductors, capacitors, dielectrics TP: 115-122, 123-128 Electrostatics with conductors SE: 441-443, 456-457 TP: 115-122 2. a. Capacitors Capacitance SE: 480-482 TP: 123-128 b. Parallel plate SE: 481-482 TP: 123-128
c. Spherical and cylindrical 3. Dielectrics SE: 482-483 TP: 123-128 C. Electric circuits Current, resistance, power SE: 494-495, 496-497, 498-502, 502-508, 509-510 TP: 129-133 2. Steady-state direct current circuits with batteries and resistors only SE: 520-521, 522-528, 528-531 TP: 135-140 3. Capacitors in circuits a. Steady state SE: 533-535 TP: 135-140 b. Transients in RCD. SE: 535-537 TP: 135-140 D. Magnetic Fields Forces on moving charges in magnetic fields SE: 560-562 TP: 141-146 2. Forces on current-carrying wires in magnetic fields SE: 558-559 TP: 141-146 3. Fields of long current-carrying wires SE: 563-566 TP: 141-146 4. Biot Savart law and Ampere s law SE: 568-569 TP: 141-146 E. Electromagnetism Electromagnetic induction (including Faraday s law and Lenz s law) SE: 584-587; 588-591 TP: 147-153 2. Inductance (including lr and lc circuits) SE: 600-602, 603-604 TP: 147-153 3. Maxwell s equations circuits SE: 616-617 IV. A. Waves and Optics Wave motion (including sound) Traveling waves SE: 300-303, 314-315, 322-234, 338-341, 617-619 TP: 87-96, 163-169 2. Wave propagation SE: 303-305, 322-324, 617-619 TP: 87-96, 163-169 3. Standing waves SE: 310-312, 329-334 TP: 87-96 4. Superposition SE: 308-309, 334-338 TP: 87-96
B. Physical optics Interference and diffraction SE: 668-671, 673-675, 676-678, 679-683 TP: 163-169 2. Dispersion of light and the electromagnetic spectrum SE: 617-619, 619-622, 671-673 TP: 163-169 C. Geometric optics Reflection and refraction SE: 632-634, 644-647, 665-668 TP: 155-162 2. Mirrors SE: 634-635, 635-637, 638-642 TP: 155-162 3. Lenses SE: 647-650, 650-653, 654-656 TP: 155-162 V. Atomic and Nuclear Physics A. Atomic physics and quantum effects Photons, the photoelectric effect, Compton scattering, x- rays SE: 717-718, 756-758, 758-762, 762-764 TP: 175-178 2. Atomic energy levels SE: 769-773, 773-778 TP: 175-178 3. Wave-particle duality SE: 765-768, 779-781 TP: 175-178 B. Nuclear physics Nuclear reactions (including conservation of mass number and charge) SE: 641-644, 645-648, 852-855, 863-868, 871-875 TP: 187-193 2. Mass energy equivalence SE: 638-640, 863-868, 871-875 TP: 187-193