College Physics, Volume 1 (Chs. 1-16) with MasteringPhysics, 8th Edition

Chapter 1  Models, Measurements, and Vectors

1.1       Introduction

1.2       Idealized Models

1.3       Standards and Units

1.4       Unit Consistency and Conversions

1.5       Precision and Significant Figures

1.6       Estimates and Orders of Magnitude

1.7       Vectors and Vector Addition

1.8       Components of Vectors

 

Chapter 2  Motion along a Straight Line

2.1       Displacement and Average Velocity

2.2       Instantaneous Velocity

2.3       Average and Instantaneous Acceleration

2.4       Motion with Constant Acceleration

2.5       Proportional Reasoning

2.6       Freely Falling Objects

*2.7     Relative Velocity along a Straight Line

 

Chapter 3  Motion in a Plane

3.1       Velocity in a Plane

3.2       Acceleration in a Plane

3.3       Projectile Motion

3.4       Uniform Circular Motion

*3.5     Relative Velocity in a Plane

 

Chapter 4  Newton’s Laws of Motion

4.1       Force

4.2       Newton’s First Law

4.3       Mass and Newton’s Second Law

4.4       Mass and Weight

4.5       Newton’s Third Law

4.6       Free-Body Diagrams

 

Chapter 5  Applications of Newton’s Laws

5.1       Equilibrium of a Particle

5.2       Applications of Newton’s Second Law

5.3       Contact Forces and Friction

5.4       Elastic Forces

5.5       Forces in Nature

 

Chapter 6  Circular Motion and Gravitation

6.1       Force in Circular Motion

6.2       Motion in a Vertical Circle

6.3       Newton’s Law of Gravitation

6.4       Weight

6.5       Satellite Motion

 

Chapter 7 Work and Energy

7.1       An Overview of Energy

7.2       Work

7.3       Work and Kinetic Energy

7.4       Work Done by a Varying Force

7.5       Potential Energy

7.6       Conservation of Energy

7.7       Conservative and Nonconservative Forces

7.8       Power

 

Chapter 8  Momentum

8.1       Momentum

8.2       Conservation of Momentum

8.3       Inelastic Collisions

8.4       Elastic Collisions

8.5       Impulse

8.6       Center of Mass

8.7       Motion of the Center of Mass

*8.8     Rocket Propulsion

 

Chapter 9  Rotational Motion

9.1       Angular Velocity and Angular Acceleration

9.2       Rotation with Constant Angular Acceleration

9.3       Relationship between Linear and Angular Quantities

9.4       Kinetic Energy of Rotation and Moment of Inertia

9.5       Rotation about a Moving Axis

 

Chapter 10  Dynamics of Rotational Motion

10.1     Torque

10.2     Torque and Angular Acceleration

10.3     Work and Power in Rotational Motion

10.4     Angular Momentum

10.5     Conservation of Angular Momentum

10.6     Equilibrium of a Rigid Body

*10.7   Vector Nature of Angular Quantities

 

Chapter 11  Elasticity and Periodic Motion

11.1     Hooke’s Law

11.2     Tensile Stress and Strain

11.3     Bulk Stress and Strain

11.4     Shear Stress and Strain

11.5     Elasticity and Plasticity

11.6     Periodic Motion

11.7     Energy in Simple Harmonic Motion

11.8     Equations of Simple Harmonic Motion

11.9     The Simple Pendulum

11.10  Damped Oscillations

11.11   Forced Oscillations and Resonance

 

Chapter 12  Mechanical Waves and Sound

12.1     Mechanical Waves

12.2     Periodic Waves

12.3     Wave Speeds

12.4     Reflections and Superposition

12.5     Standing Waves and Normal Modes

12.6     Longitudinal Standing Waves

12.7     Interference

12.8     Sound and Hearing

12.9     Sound Intensity

12.10  Beats

12.11   The Doppler Effect 

12.12  Applications of Acoustics

*12.13 Musical Tones

 

Chapter 13   Fluid Mechanics

13.1     Density

13.2     Pressure in a Fluid

13.3     Archimedes’ Principle: Buoyancy

*13.4   Surface Tension

13.5     Fluid Flow

13.6     Bernoulli’s Equation

13.7     Applications of Bernoulli’s equation

13.8     Real Fluids: Viscosity and Turbulence

 

Chapter 14  Temperature and Heat

14.1     Temperature and Thermal Equilibrium

14.2     Temperature Scales

14.3     Thermal Expansion

14.4     Quantity of Heat

14.5     Phase Changes

14.6     Calorimetry

14.7     Heat Transfer

*14.8   Solar Energy and Resource Conservation

 

Chapter 15  Thermal Properties of Matter

15.1     Equations of State

15.2     Kinetic Theory of an Ideal Gas

15.3     Heat Capacities

15.4     The First Law of Thermodynamics

15.5     Thermodynamic Processes

15.6     Properties of an Ideal Gas

 

Chapter 16  The Second Law of Thermodynamics

16        The Second Law of Thermodynamics

16.1     Directions of Thermodynamic Processes

16.2     Heat Engines

16.3     Internal-Combustion Engines

16.4     Refrigerators

16.5     The Second Law of Thermodynamics

16.6     The Carnot Cycle

16.7     Entropy

*18.8  The Kelvin Temperature Scale

*18.9   Energy Resources:  A Case Study in Thermodynamics