Cracking the AP Physics B Exam, 2013 Edition by Princeton-Review -- Read -- Imperial Library of Trantor

Index

Cover Title Page Copyright Acknowledgments Dedication Contents Introduction 1. Vectors

Introduction Definition Vector Addition (Geometric) Scalar Multiplication Vector Subtraction (Geometric) Standard Basis Vectors Vector Operations Using Components Magnitude of a Vector Direction of a Vector

2. Kinematics

Introduction Position Displacement

A Note about Notation

Speed and Velocity Acceleration Uniformly Accelerated Motion and the Big Five Kinematics with Graphs Qualitative Graphing Free Fall Projectile Motion Chapter 2 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

3. Newton’s Laws

Introduction The First Law The Second Law The Third Law Weight An Overall Strategy The Normal Force Friction Pulleys Inclined Planes Chapter 3 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

4. Work, Energy, and Power

Introduction Work Work Done by a Variable Force Kinetic Energy The Work–Energy Theorem Potential Energy Conservation of Mechanical Energy Power Chapter 4 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

5. Linear Momentum

Introduction Impulse Conservation of Linear Momentum Collisions Chapter 5 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

6. Uniform Circular Motion and Newton’s Law of Gravitation

Introduction Uniform Circular Motion Torque Equilibrium Newton’s Law of Gravitation The Gravitational Attraction Due to an Extended Body Chapter 6 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

7. Oscillations

Introduction Simple Harmonic Motion (SHM): The Spring-Block Oscillator

SHM in Terms of Energy

The Kinematics of SHM The Spring-Block Oscillator: Vertical Motion Pendulums Chapter 7 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

8. Fluid Mechanics

Introduction Density Pressure Hydrostatic Pressure Buoyancy Flow Rate and the Continuity Equation Bernoulli’s Equation

Torricelli’s Theorem The Bernoulli Effect

Chapter 8 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

9. Thermal Physics

Introduction

Temperature Scales

Physical Changes Due to Heat Transfer

Calorimetry I: Heat Transfer and Temperature Change Calorimetry II: Heat Transfer and Phase Changes

Thermal Expansion Heat Transfer The Kinetic Theory of Gases The Ideal Gas Law The Laws of Thermodynamics

The Zeroth Law of Thermodynamics The First Law of Thermodynamics The Second Law of Thermodynamics The Carnot Cycle

Chapter 9 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

10. Electric Forces and Fields

Electric Charge Coulomb’s Law

Superposition

The Electric Field Conductors and Insulators Chapter 10 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

11. Electric Potential and Capacitance

Introduction Electrical Potential Energy Electric Potential

The Potential in a Uniform Field

Capacitance Combinations of Capacitors The Energy Stored in a Capacitor Chapter 11 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

12. Direct Current Circuits

Introduction Electric Current Resistance

Resistivity

Electric Circuits

Energy and Power

Circuit Analysis

Combinations of Resistors Kirchhoff’s Rules

Resistance–Capacitance (RC) Circuits Chapter 12 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

13. Magnetic Forces and Fields

Introduction Magnetic Fields The Magnetic Force on a Moving Charge The Magnetic Force on a Current-Carrying Wire Magnetic Fields Created by Current-Carrying Wires Chapter 13 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

14. Electromagnetic Induction

Introduction Motional EMF Faraday’s Law of Electromagnetic Induction Chapter 14 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

15. Waves

Introduction Transverse Traveling Waves

Point of View #1: x Varies, t Does Not Point of View #2: t Varies, x Does Not

Wave Speed on a Stretched String

The Mathematical Description of a Traveling Wave

Superposition of Waves Standing Waves Sound Waves

Sound Level Beats

Resonance for Sound Waves The Doppler Effect The Doppler Effect for Light Chapter 15 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

16. Optics

Introduction The Electromagnetic Spectrum Interference and Diffraction

Young’s Double-Slit Interference Experiment Single-Aperture Diffraction

Reflection and Refraction

Dispersion of Light Total Internal Reflection

Mirrors

Plane Mirrors Spherical Mirrors

Ray Tracing for Mirrors

Using Equations to Answer Questions About the Image

Thin Lenses

Ray Tracing for Lenses Using Equations to Answer Questions About the Image

Chapter 16 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

17. Atomic and Nuclear Physics

Introduction Photons and the Photoelectric Effect The Bohr Model of the Atom Wave-Particle Duality Nuclear Physics

The Nuclear Force Binding Energy

Nuclear Reactions Disintegration Energy Chapter 17 Review Questions

Section I: Multiple Choice Section II: Free Response

Summary

18. Solutions to the Chapter Review Questions 19. The Princeton Review AP Physics B Practice Exam 1 20. AP Physics B Practice Exam 1: Answers and Explanations 21. The Princeton Review AP Physics B Practice Exam 2 22. AP Physics B Practice Exam 2: Answers and Explanations About the Authors Index

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