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Prentice Hall Physics: Principles with Applications, Updated AP Edition © 2009 (Giancoli)
C O R R E L A T E D T O
Publisher Questionnaire and Florida Course Standards and Access Points forAdvanced Placement Physics B - 2003420
Grades 9-12
G r a d e s 9 - 1 2
SUBJECT: GRADE LEVEL: COURSE TITLE: COURSE CODE: SUBMISSION TITLE:TITLE ID:PUBLISHER: PUBLISHER ID:
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.) Thor
ough
ly
Hig
hly
Ade
quat
ely
Min
imal
ly
Not
At A
ll
I.
A.
1. SE: 19-25, 26-31, 31-37TP: 37-42
2. SE: 45-53, 54-61, 62-64TP: 43-48
B.
1. SE: 72-75, 80-82, 84-85TP: 49-54
2. SE: 75-77, 80-86, 89-93, 94-96, 106-109, 109-115, TP: 49-54
3. SE: 77-80, 86-88, 93TP: 49-54
C.
1. SE: 137-141, 141-144TP: 61-66
2. SE: 144-148, 148-149
Committee Member Evaluation(Committee Member Use Only)
Physics: Principles with Applications, Updated AP Edition © 2009, (Giancoli)
CORRELATIONFLORIDA DEPARTMENT OF EDUCATION
INSTRUCTIONAL MATERIALS CORRELATION
Science9-12Advanced Placement Physics B2003420
ADVANCED PLACEMENT COURSE DESCRIPTION
1722Pearson publishing as Prentice Hall22-1603684-03
Newtonian Mechanics
Kinematics (including vectors, vector algebra, components of vectors, coordinate systems, displacement, velocity, and acceleration)Motion in one dimension
Motion in two dimensions, including projectile motion
Newton’s laws of motion
Static equilibrium (first law)
Dynamics of a single particle (second law)
Systems of two or more objects (third law)
Work, energy, power
Work and work–energy theorem
Forces and potential energy
TP: 61-663. SE: 149-150, 150-155, 155-158
TP: 61-664 SE: 158-160
TP: 61-66D.
1. SE: 182-185, 185-186TP: 67-71
2. SE: 168-169TP: 67-71
3. SE: 170-173, 173-175, 176-181TP: 67-71
E.
1. SE: 106-109, 109-115, 115-117TP: 55-60
2. SE: 203-206, 226-229, 229-236TP: 73-80
3. SE: 195-200, 201-203, 206-210TP: 73-80
4. SE: 213-216TP: 73-80
F.
1. SE: 287-289, 289-291, 292-296TP: 87-96
2. SE: 287-290TP: 87-96
3. SE: 296-297, 298-299TP: 87-96
4. SE: 117-120TP: 55-60
5.
a. SE: 121-125TP: 55-60
b. SE: 125-128TP: 55-60
II.
A.
1. SE: 257-258TP: 81-86
2. SE: 263-268TP: 81-86
Conservation of energy
Power
Systems of particles, linear momentum
Center of mass
Impulse and momentum
Conservation of linear momentum, collisions
Circular motion and rotation
Uniform circular motion
Torque and rotational statics
Rotational kinematics and dynamics
Angular momentum and its conservation
Oscillations and gravitation
Simple harmonic motion (dynamics and energy relationships)Mass on a spring
Pendulum and other oscillations
Newton’s law of gravity
Orbits of planets and satellites
Circular
General
Fluid Mechanics and Thermal Physics
Fluid Mechanics
Hydrostatic pressure
Buoyancy
3. SE: 268-269TP: 81-86
4. SE: 270-274TP: 81-86
B.
1. SE: 385-386TP: 103-108
2. SE: 357-361; 395-402TP: 97-102, 103-108
C.
1.
a. SE: 352-357, 367-371TP: 97-102
b. SE: 363-367TP: 97-102
2.
a. SE: 409-410, 410-415TP: 109-114
b. SE: 415-426, 426-421, 424-429TP: 109-114
III.
A.
1. SE: 440-443, 444-449TP: 115-122
2. SE: 450-454, 454-457, 476-479TP: 115-122, 123-128
3. SE: 457-459TP: 115-122
4. SE: 450-454, 454-457, 458-459, 470-475, 479-480
TP: 115-122, 123-128B.
1. SE: 441-443, 456-457TP: 115-122
2.
a. SE: 480-482TP: 123-128
b. SE: 481-482TP: 123-128
Fluid flow continuity
Bernoulli’s equation
Temperature and heat
Mechanical equivalent of heat
Heat transfer and thermal expansion
Kinetic theory and thermodynamics
Ideal gases
Kinetic model
Ideal gas law
Laws of thermodynamics
First law (including processes on pV diagrams)
Second law (including heat engines)
Electricity and Magnetism
Electrostatics
Charge and Coulomb’s law
Electric field and electric potential (including point charges)Gauss’s law
Fields and potentials of other charge distributions
Conductors, capacitors, dielectrics
Electrostatics with conductors
Capacitors
Capacitance
Parallel plate
c.
3. SE: 482-483TP: 123-128
C.
1.
2. SE: 520-521, 522-528, 528-531TP: 135-140
3.
a. SE: 533-535TP: 135-140
b. SE: 535-537TP: 135-140
D.
1. SE: 560-562TP: 141-146
2. SE: 558-559TP: 141-146
3. SE: 563-566TP: 141-146
4. SE: 568-569TP: 141-146
E.
1. SE: 584-587; 588-591TP: 147-153
2. SE: 600-602, 603-604TP: 147-153
3.
IV.
A.
1. SE: 300-303, 314-315, 322-234, 338-341, 617-619
TP: 87-96, 163-1692. SE: 303-305, 322-324, 617-619
TP: 87-96, 163-1693. SE: 310-312, 329-334
TP: 87-964. SE: 308-309, 334-338
TP: 87-96
Spherical and cylindrical
Dielectrics
Electric circuits
Current, resistance, power
Steady-state direct current circuits with batteries and resistors onlyCapacitors in circuits
Steady state
Transients in RCD.
Magnetic Fields
Forces on moving charges in magnetic fields
Forces on current-carrying wires in magnetic fields
Fields of long current-carrying wires
Biot–Savart law and Ampere’s law
Electromagnetism
Electromagnetic induction (including Faraday’s law and Lenz’s law)Inductance (including lr and lc circuits)
Maxwell’s equations circuits
Waves and Optics
Wave motion (including sound)
Traveling waves
Wave propagation
Standing waves
Superposition
SE: 494-495, 496-497, 498-502, 502-508, 509-510TP: 129-133
SE: 616-617
B.
1. SE: 668-671, 673-675, 676-678, 679-683TP: 163-169
2. SE: 617-619, 619-622, 671-673TP: 163-169
C.
1. SE: 632-634, 644-647, 665-668TP: 155-162
2. SE: 634-635, 635-637, 638-642TP: 155-162
3. SE: 647-650, 650-653, 654-656TP: 155-162
V.
A.
1. SE: 717-718, 756-758, 758-762, 762-764TP: 175-178
2. SE: 769-773, 773-778TP: 175-178
3. SE: 765-768, 779-781TP: 175-178
B.
1. SE: 641-644, 645-648, 852-855, 863-868, 871-875
TP: 187-1932. SE: 638-640, 863-868, 871-875
TP: 187-193
Mirrors
Lenses
Atomic and Nuclear Physics
Physical optics
Interference and diffraction
Dispersion of light and the electromagnetic spectrum
Geometric optics
Nuclear physics
Nuclear reactions (including conservation of mass number and charge)
Mass–energy equivalence
Atomic physics and quantum effects
Photons, the photoelectric effect, Compton scattering, x-raysAtomic energy levels
Wave-particle duality
Reflection and refraction