![College Physics, Volume 1, 1st Edition [Rental Edition] by Tammaro, Michael; Heskett, David, 9781119625070](https://simages.biggerbooks.com/images/d/5/070/9781119625070.jpg "College Physics, Volume 1, 1st Edition [Rental Edition] by Tammaro, Michael; Heskett, David, 9781119625070")
- ISBN: 9781119625070 | 1119625076
- Cover: Hardcover
- Copyright: 8/6/2019
0 Mathematical Preliminaries 1
0.1 Mathematics 2
0.1.1: Concept Check
0.2 Algebra 3
0.2.1: Concept Check
0.2.1: Practice Problem
0.2.2: Practice Problem
0.2.2: Concept Check
0.2.1: Going Deeper
0.2.2: Additional Example
0.2.2: Going Deeper
0.2.3: Concept Check
0.2.4: Concept Check
0.2.4: Additional Example
0.3 Using Your Calculator 13
0.3.1: Concept Check
0.3.2: Concept Check
0.4 Geometry and Trigonometry 17
0.4.1: Practice Problem
0.4.1: Going Deeper
0.4.2: Practice Problem
0.5 Graphs 21
0.5.1: Concept Check
0.5.2: Concept Check
0.5.1: Going Deeper
1 Introduction to Physics 27
1.1 Physics and Physical Laws 28
1.1.1: Going Deeper
1.1.1: Concept Check
1.2 Units, Dimensions, and Conversions 30
1.2.1: Concept Check
1.2.1: Practice Problem
1.2.1: Additional Example
1.3 Scientific Notation and Significant Figures 35
1.3.1: Going Deeper
1.3.1: Practice Problem
1.3.1: Additional Example
1.3.2: Practice Problem
1.3.2: Going Deeper
1.3.1: Concept Check
1.4 Problem Solving in Physics 39
1.4.1: Concept Check
2 Kinematics in One Dimension 42
2.1 Position and Displacement: Vectors in One Dimension 43
2.1.1: Concept Check
2.1.1: Going Deeper
2.1.2: Concept Check
2.1.1: Practice Problem
2.1.3: Concept Check
2.1.2: Practice Problem
2.2 Average Speed and Velocity 46
2.2.1: Practice Problem
2.2.2: Animated Figure
2.2.1: Additional Example
2.2.2: Practice Problem
2.3 Instantaneous Velocity 49
2.3.1: Practice Problem
2.4 Acceleration 50
2.4.1: Animated Figure
2.4.1: Interactive Example
2.4.1: Concept Check
2.4.1: Additional Example
2.4.1: Practice Problem
2.5 Motion in One Dimension with Constant Acceleration 52
2.5.1: Additional Example
2.5.1: Interactive Example
2.5.1: Going Deeper
2.5.3: Interactive Example
2.5.2: Additional Example
2.6 Graphs and Their Interpretation 58
2.6.1: Concept Check
2.6.3: Animated Figure
2.6.1: Concept Check
2.7 Free Fall: The Acceleration of Gravity 60
2.7.1: Concept Check
2.7.1: Video
2.7.1: Practice Problem
2.7.1: Going Deeper
2.7.2: Concept Check
2.7.1: Additional Example
3 Kinematics in Two Dimensions 69
3.1 Position: Vectors in Two Dimensions 70
3.1.1: Concept Check
3.1.2: Concept Check
3.1.1: Practice Problem
3.1.2: Practice Problem
3.2 Displacement: Vector Addition and Subtraction in Two Dimensions 74
3.2.1: Concept Check
3.2.1: Practice Problem
3.3 Velocity and Acceleration 77
3.3.1: Practice Problem
3.3.2: Practice Problem
3.3.2: Interactive Example
3.4 Equations of Kinematics in Two Dimensions 81
3.4.2: Interactive Example
3.5 Projectile Motion 83
3.5.1: Going Deeper
3.5.1: Concept Check
3.5.1: Practice Problem
3.5.1: Animated Figure
3.5.1: Video
3.5.2: Interactive Example
3.5.2: Going Deeper
3.5.2: Practice Problem
3.5.1: Additional Example
3.6 Relative Velocity 91
3.6.1: Practice Problem
3.6.2: Practice Problem
4 Force and Newton’s Laws 99
4.1 Force and Mass 100
4.1.1: Concept Check
4.2 Newton’s First Law 101
4.2.1: Concept Check
4.2.1: Practice Problem
4.2.1: Going Deeper
4.3 Newton’s Second Law 104
4.3.1: Animated Figure
4.3.1: Practice Problem
4.3.2: Practice Problem
4.3.1: Concept Check
4.3.1: Additional Example
4.4 Newton’s Third Law 108
4.4.1: Concept Check
4.4.1: Going Deeper
4.4.1: Additional Example
4.5 Weight and the Normal Force 111
4.5.1: Practice Problem
4.5.2: Interactive Example
4.6 Friction 115
4.6.2: Animated Figure
4.6.1: Practice Problem
4.6.2: Practice Problem
4.6.2: Interactive Example
4.6.1: Additional Example
4.7 Tension and Pulleys, and Other Contact Forces 120
4.7.1: Video
4.7.1: Concept Check
4.7.1: Practice Problem
4.8 Applications I—Equilibrium 122
4.8.2: Interactive Example
4.9 Applications II—Nonequilibrium 124
4.9.2: Interactive Example
5 Motion Along a Circular Path 130
5.1 Uniform Circular Motion and Centripetal Acceleration 131
5.1.1: Animated Figure
5.1.1: Concept Check
5.1.1: Going Deeper
5.1.1: Practice Problem
5.1.2: Practice Problem
5.2 Dynamics of Uniform Circular Motion 134
5.2.1: Concept Check
5.2.1: Practice Problem
5.2.2: Concept Check
5.2.1: Additional Example
5.3 Applications 137
5.3.1: Interactive Example
5.3.1: Practice Problem
6 Work and Energy 142
6.1 Work Done by a Constant Force 143
6.1.1: Animated Figure
6.1.1: Practice Problem
6.1.1: Concept Check
6.1.2: Practice Problem
6.1.1: Additional Example
6.2 Kinetic Energy and the Work-Energy Theorem 148
6.2.1: Animated Figure
6.2.1: Practice Problem
6.2.1: Concept Check
6.2.2: Practice Problem
6.2.1: Additional Example
6.3 Work Done by a Variable Force and Hooke’s Law 152
6.3.1: Animated Figure
6.3.1: Practice Problem
6.3.2: Practice Problem
6.3.1: Concept Check
6.3.1: Additional Example
6.4 Conservative Forces, Nonconservative Forces, and Potential Energy 157
6.4.1: Practice Problem
6.4.1: Going Deeper
6.4.1: Concept Check
6.4.2: Animated Figure
6.4.2: Practice Problem
6.4.3: Practice Problem
6.4.2: Going Deeper
6.4.1: Additional Example
6.5 Conservation of Energy 163
6.5.1: Concept Check
6.5.2: Interactive Example
6.5.1: Practice Problem
6.5.1: Video
6.5.1: Going Deeper
6.6 Power 167
6.6.1: Practice Problem
7 Linear Momentum 173
7.1 Impulse and Momentum 174
7.1.1: Practice Problem
7.1.1: Concept Check
7.1.2: Practice Problem
7.1.1: Additional Example
7.1.3: Animated Figure
7.1.3: Practice Problem
7.1.2: Additional Example
7.2 The Impulse-Momentum Theorem 180
7.2.1: Animated Figure
7.2.1: Practice Problem
7.2.1: Going Deeper
7.2.1: Concept Check
7.3 Conservation of Momentum 184
7.3.1: Animated Figure
7.3.1: Concept Check
7.3.1: Practice Problem
7.3.2: Concept Check
7.4 One-Dimensional Collisions 188
7.4.1: Animated Figure
7.4.1: Concept Check
7.4.1: Interactive Example
7.4.2: Concept Check
7.4.1: Going Deeper
7.5 Two-Dimensional Collisions 192
7.5.1: Animated Figure
7.5.2: Animated Figure
7.5.1: Concept Check
7.5.2: Interactive Example
7.5.1: Going Deeper
7.6 Center of Mass 196
7.6.1: Interactive Example
7.6.1: Going Deeper
7.6.1: Practice Problem
7.6.1: Video
8 Rotational Kinematics and Energy 204
8.1 Angular Position and Displacement 205
8.1.1: Animated Figure
8.1.1: Concept Check
8.1.1: Practice Problem
8.1.2: Practice Problem
8.1.1: Additional Example
8.2 Angular Velocity and Acceleration 208
8.2.1: Practice Problem
8.2.1: Animated Figure
8.2.2: Practice Problem
8.3 Rotational Kinematics 211
8.3.1: Practice Problem
8.3.1: Concept Check
8.3.1: Additional Example
8.4 Connection Between Rotational and Linear Quantities 215
8.4.1: Practice Problem
8.4.2: Practice Problem
8.4.1: Going Deeper
8.4.1: Concept Check
8.4.3: Practice Problem
8.5 Rotational Kinetic Energy and the Moment of Inertia 222
8.5.1: Concept Check
8.5.1: Practice Problem
8.5.2: Interactive Example
8.5.2: Practice Problem
8.6 Energy Conservation for Rotating Objects 227
8.6.1: Animated Figure
8.6.1: Going Deeper
8.6.1: Practice Problem
8.6.2: Going Deeper
8.6.1: Concept Check
8.6.2: Practice Problem
8.6.2: Concept Check
9 Rotational Dynamics and Torque 236
9.1 Torque 237
9.1.1: Concept Check
9.1.1: Practice Problem
9.1.2: Concept Check
9.1.1: Additional Example
9.1.3: Concept Check
9.1.2: Practice Problem
9.2 Torque and Static Equilibrium 242
9.2.1: Concept Check
9.2.2: Interactive Example
9.2.1: Going Deeper
9.2.1: Practice Problem
9.2.1: Additional Example
9.3 Newton’s Second Law for Rotation 248
9.3.1: Animated Figure
9.3.1: Concept Check
9.3.1: Going Deeper
9.3.1: Interactive Example
9.3.1: Practice Problem
9.3.1: Additional Example
9.4 Angular Momentum 252
9.4.1: Concept Check
9.4.2: Concept Check
9.4.2: Animated Figure
9.4.1: Going Deeper
9.4.1: Practice Problem
9.5 Rotational Work and Power 257
9.5.1: Practice Problem
9.5.2: Practice Problem
9.6 Rotational Quantities as Vectors 259
9.6.1: Concept Check
10 Gravitation 264
10.1 Newton’s Law of Universal Gravitation 265
10.1.1: Concept Check
10.1.2: Interactive Example
10.1.2: Additional Example
10.1.1: Practice Problem
10.2 Gravitational Potential Energy 270
10.2.1: Practice Problem
10.2.1: Going Deeper
10.2.1: Additional Example
10.2.2: Practice Problem
10.3 Planetary Orbits and Kepler’s Laws 274
10.3.1: Concept Check
10.3.4: Animated Figure
10.3.2: Concept Check
10.3.1: Practice Problem
11 Mechanical Oscillations 281
11.1 Periodic Motion and Simple Harmonic Motion 282
11.1.1: Concept Check
11.1.1: Animated Figure
11.1.1: Practice Problem
11.1.2: Animated Figure
11.1.2: Practice Problem
11.1.4: Animated Figure
11.1.3: Practice Problem
11.2 Velocity and Acceleration in Simple Harmonic Motion 285
11.2.1: Practice Problem
11.2.1: Additional Example
11.2.2: Practice Problem
11.2.1: Going Deeper
11.3 A Mass on a Spring 290
11.3.1: Animated Figure
11.3.1: Concept Check
11.3.1: Practice Problem
11.3.1: Additional Example
11.4 The Pendulum 294
11.4.1: Video
11.4.1: Going Deeper
11.4.1: Interactive Example
11.4.1: Practice Problem
11.5 Energy in Simple Harmonic Motion 297
11.5.1: Animated Figure
11.5.1: Concept Check
11.5.1: Practice Problem
11.6 Damped Oscillations 299
11.6.1: Going Deeper
11.6.1: Additional Example
11.6.1: Practice Problem
11.6.1: Animated Figure
11.6.1: Concept Check
11.7 Driven Oscillations, and Resonance 304
11.7.1: Practice Problem
12 Properties of Fluids and Solids 310
12.1 States of Matter and Density 311
12.1.1: Animated Figure
12.1.1: Concept Check
12.1.1: Interactive Example
12.2 Pressure 313
12.2.1: Practice Problem
12.2.1: Concept Check
12.2.2: Practice Problem
12.2.3: Practice Problem
12.2.1: Going Deeper
12.3 Fluids in Static Equilibrium and Pascal’s Principle 316
12.3.1: Interactive Example
12.3.1: Concept Check
12.3.1: Going Deeper
12.3.2: Going Deeper
12.3.1: Additional Example
12.3.1: Practice Problem
12.4 Archimedes’ Principle 322
12.4.1: Practice Problem
12.4.1: Going Deeper
12.4.2: Practice Problem
12.4.3: Interactive Example
12.4.2: Going Deeper
12.5 Fluid Flow and the Continuity Equation 328
12.5.1: Animated Figure
12.5.1: Concept Check
12.5.1: Practice Problem
12.5.2: Practice Problem
12.6 Bernoulli’s Equation 331
12.6.1: Concept Check
12.6.1: Going Deeper
12.6.2: Interactive Example
12.6.1: Additional Example
12.6.2: Going Deeper
12.7 Viscosity 337
12.7.1: Concept Check
12.7.1: Practice Problem
12.8 Elastic Deformation of Solids 340
12.8.1: Practice Problem
12.8.2: Practice Problem
12.8.1: Going Deeper
13 Heat and Temperature 350
13.1 Thermometers and Temperature Scales 351
13.1.1: Concept Check
13.1.1: Practice Problem
13.1.2: Practice Problem
13.1.1: Going Deeper
13.2 Thermal Expansion 354
13.2.1: Concept Check
13.2.1: Practice Problem
13.2.1: Going Deeper
13.2.2: Practice Problem
13.2.2: Going Deeper
13.2.3: Going Deeper
13.2.1: Interactive Example
13.3 Heat and Temperature Change 362
13.3.1: Concept Check
13.3.1: Practice Problem
13.3.2: Practice Problem
13.3.3: Practice Problem
13.3.1: Additional Example
13.4 Heat and Phase Change 366
13.4.1: Practice Problem
13.4.2: Practice Problem
13.4.1: Additional Example
13.4.1: Going Deeper
13.4.3: Practice Problem
13.5 The Convection and Conduction of Heat 372
13.5.1: Going Deeper
13.5.1: Concept Check
13.5.1: Interactive Example
13.5.1: Practice Problem
13.5.2: Going Deeper
13.6 Thermal Radiation 379
13.6.1: Practice Problem
13.6.2: Practice Problem
13.6.1: Concept Check
13.6.1: Additional Example
14 Ideal Gases and Kinetic Theory 387
14.1 Atomic Mass and Avogadro’s Number 388
14.1.1: Additional Example
14.1.1: Practice Problem
14.1.2: Practice Problem
14.2 The Ideal Gas Law 390
14.2.1: Animated Figure
14.2.1: Interactive Example
14.2.1: Going Deeper
14.2.2: Interactive Example
14.2.1: Practice Problem
14.2.1: Additional Example
14.3 Kinetic Theory 395
14.3.1: Interactive Example
14.3.1: Going Deeper
14.3.1: Animated Figure
14.3.2: Going Deeper
14.3.2: Concept Check
14.3.1: Practice Problem
14.3.3: Going Deeper
15 Thermodynamics 404
15.1 The Zeroth and First Laws of Thermodynamics 405
15.1.1: Concept Check
15.1.3: Animated Figure
15.1.2: Concept Check
15.1.3: Concept Check
15.2 Thermodynamic Processes 409
15.2.1: Animated Figure
15.2.1: Interactive Example
15.2.2: Animated Figure
15.2.1: Practice Problem
15.2.1: Concept Check
15.3 Thermodynamics of Ideal Gases 411
15.3.1: Animated Figure
15.3.1: Concept Check
15.3.2: Animated Figure
15.3.2: Concept Check
15.3.1: Practice Problem
15.3.1: Animated Figure
15.3.3: Animated Figure
15.3.2: Practice Problem
15.3.4: Animated Figure
15.4 Heat Engines and the Second Law of Thermodynamics 418
15.4.1: Animated Figure
15.4.1: Concept Check
15.4.2: Concept Check
15.4.1: Going Deeper
15.4.1: Practice Problem
15.4.1: Additional Example
15.4.2: Going Deeper
15.5 Refrigerators 425
15.5.1: Animated Figure
15.5.1: Concept Check
15.5.1: Practice Problem
15.5.1: Additional Example
15.6 Entropy 427
15.6.1: Animated Figure
15.6.1: Concept Check
15.6.2: Interactive Example
15.6.1: Practice Problem
15.6.1: Going Deeper
Appendix A: Fundamental Constants*
Appendix B: Useful Physical Data*
Appendix C: Astronomical Data*
Appendix D: Conversion Factors*
Appendix E: Conversions (British)*
Appendix F: Metric Prefixes*
Appendix G: Periodic Table of Elements*
Appendix H: Unit Combinations and Derived Units*
Appendix I: Table of Isotopes*
Index I-1
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