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

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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