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ISBN 10: 0321879724
ISBN 13: 978-0321879721
Author: Randall D. Knight, Brian Jones, Stuart Field
Building on the research-proven instructional techniques introduced in Knight’s P hysics for Scientists and Engineers, College Physics: A Strategic Approach sets a new standard for algebra-based introductory physics—gaining widespread critical acclaim from professors and students alike. The text, supplements, and MasteringPhysics work together to help students see and understand the big picture, gain crucial problem-solving skills and confidence, and better prepare for lecture and their future.
For the Third Edition, Randy Knight, Brian Jones, and Stuart Field have incorporated student feedback and research to strengthen their focus on student learning, and to apply the best results from educational research and extensive user feedback and metadata.
This program presents an unparalleled teaching and learning experience, uniquely effective and integrated.
- Personalize learning with MasteringPhysics: MasteringPhysics provides students with engaging experiences that coach them through physics with specific wrong-answer feedback, hints, and a wide variety of educationally effective content.
- Prepare for lecture: Prepare students for lecture with innovative and engaging media tools, tailored carefully to reinforce the textbook.
- Understand the big picture: Enable students to understand the connections between topics, the real-world context, and the overarching themes, skills, and principles of physics using refined and expanded learning tools.
- Develop problem-solving skills: Equip students with problem-solving tactics and strategies through expanded guidance and practice in the text and online in MasteringPhysics.
- Foster skills for the MCAT: Gear students up for the new MCAT with enhanced life-science and biomedical applications in the text and problems, and increased emphasis on reasoning with real-world situations and data.
College Physics A Strategic Approach 3rd Table of contents:
Chapter 1 Concepts of Motion and
Mathematical Background 4
1.1 Motion: A First Look 5
1.2 Position and Time:
Putting Numbers on Nature 8
1.3 Velocity 11
1.4 A Sense of Scale: Significant Figures,
Scientific Notation, and Units 13
1.5 Vectors and Motion: A First Look 19
1.6 Making Models: The Power of Physics 24
1.7 Where Do We Go From Here? 25
Summary 27
Questions and Problems 28
Chapter 2 Motion in One Dimension 33
2.1 Describing Motion 34
2.2 Uniform Motion 37
2.3 Motion with Changing Velocity 43
2.4 Acceleration 45
2.5 Motion with Constant Acceleration 48
2.6 Solving One-Dimensional Motion
Problems 51
2.7 Free Fall 55
Summary 60
Questions and Problems 61
Chapter 3 Vectors and Motion in Two Dimensions 70
3.1 Using Vectors 71
3.2 Using Vectors on Motion Diagrams 74
3.3 Coordinate Systems and Vector
Components 77
3.4 Motion on a Ramp 82
3.5 Relative Motion 85
3.6 Motion in Two Dimensions: Projectile Motion 86
3.7 Projectile Motion: Solving Problems 89
3.8 Motion in Two Dimensions:
Circular Motion 92
Summary 97
Questions and Problems 98
Chapter 4 Forces and Newton’s Laws
of Motion 105
4.1 What Causes Motion? 106
4.2 Force 107
4.3 A Short Catalog of Forces 110
4.4 Identifying Forces 114
4.5 What Do Forces Do? 116
4.6 Newton’s Second Law 119
4.7 Free-Body Diagrams 122
4.8 Newton’s Third Law 125
Summary 130
Questions and Problems 131
Chapter 5 Applying Newton’s Laws 137
5.1 Equilibrium 137
5.2 Dynamics and Newton’s Second Law 141
5.3 Mass and Weight 145
5.4 Normal Forces 148
5.5 Friction 150
5.6 Drag 155
5.7 Interacting Objects 159
5.8 Ropes and Pulleys 162
Summary 167
Questions and Problems 168
Chapter 6 Circular Motion, Orbits,
and Gravity 175
6.1 Uniform Circular Motion 176
6.2 Speed, Velocity, and Acceleration
in Uniform Circular Motion 178
6.3 Dynamics of Uniform
Circular Motion 180
6.4 Apparent Forces in Circular Motion 186
6.5 Circular Orbits and Weightlessness 190
6.6 Newton’s Law of Gravity 193
6.7 Gravity and Orbits 197
Summary 200
Questions and Problems 201
Chapter 7 Rotational Motion 207
7.1 The Rotation of a Rigid Body 208
7.2 Torque 211
7.3 Gravitational Torque and the Center of Gravity 215
7.4 Rotational Dynamics and Moment
of Inertia 220
7.5 Using Newton’s Second Law
for Rotation 225
7.6 Rolling Motion 228
Summary 230
Questions and Problems 231
Chapter 8 Equilibrium and Elasticity 238
8.1 Torque and Static Equilibrium 239
8.2 Stability and Balance 243
8.3 Springs and Elastic Materials 246
8.4 Stretching, Compressing,
and Bending Matter 250
Summary 255
Questions and Problems 256
Part Summary Force and Motion: Dark Matter
and the Structure of the Universe 262
Part II Conservation Laws
Overview Why Some Things Stay the Same 264
Chapter 9 Momentum 266
9.1 Impulse 267
9.2 Momentum and the Impulse-
Momentum Theorem 268
9.3 Solving Impulse and Momentum
Problems 272
9.4 Conservation of Momentum 274
9.5 Inelastic Collisions 281
9.6 Momentum and Collisions in
Two Dimensions 282
9.7 Angular Momentum 283
Summary 287
Questions and Problems 288
Chapter 10 Energy and Work 295
10.1 A “Natural Money” Called Energy 296
10.2 The Basic Energy Model 297
10.3 The Law of Conservation of Energy 301
10.4 Work 305
10.5 Kinetic Energy 309
10.6 Potential Energy 313
10.7 Thermal Energy 318
10.8 Further Examples of Conservation
of Energy 319
10.9 Energy in Collisions 321
10.10 Power 324
Summary 326
Questions and Problems 327
Chapter 11 Using Energy 333
11.1 Transforming Energy 334
11.2 Energy in the Body: Energy Inputs 337
11.3 Energy in the Body: Energy Outputs 339
11.4 Thermal Energy and Temperature 343
11.5 Heat and the First Law
of Thermodynamics 348
11.6 Heat Engines 352
11.7 Heat Pumps 354
11.8 Entropy and the Second Law
of Thermodynamics 357
11.9 Systems, Energy, and Entropy 361
Summary 362
Questions and Problems 363
Part Summary Conservation Laws: Order
Out of Chaos 368
Part III Properties of Matter
Overview Beyond the Particle Model 370
Chapter 12 Thermal Properties of Matter 372
12.1 The Atomic Model of Matter 373
12.2 Thermal Expansion 375
12.3 Pressure and the Kinetic
Theory of an Ideal Gas 378
12.4 Ideal-Gases Processes 383
12.5 Specific Heat and Heat
of Transformation 389
12.6 Calorimetry 394
12.7 Thermal Properties of Gases 396
12.8 Heat Transfer 399
Summary 405
Questions and Problems 406
Chapter 13 Fluids 414
13.1 Fluids and Density 414
13.2 Pressure 416
13.3 Measuring and Using Pressure 421
13.4 Buoyancy 425
13.5 Fluids in Motion 430
13.6 Fluid Dynamics 433
13.7 Viscosity and Poiseuille’s Equation 438
Summary 441
Questions and Problems 442
Part Summary Properties of Matter: Size and Life 448
Part IV Oscillations and Waves
Overview Motion That Repeats Again and Again 450
Chapter 14 Oscillations 452
14.1 Equilibrium and Oscillation 453
14.2 Linear Restoring Forces
and Harmonic Motion 455
14.3 Describing Simple Harmonic Motion 458
14.4 Energy in Simple Harmonic Motion 463
14.5 Pendulum Motion 468
14.6 Damped Oscillations 470
14.7 Driven Oscillations and Resonance 473
Summary 476
Questions and Problems 477
Chapter 15 Traveling Waves and Sound 484
15.1 The Wave Model 485
15.2 Traveling Waves 486
15.3 Graphical and Mathematical
Descriptions of Waves 490
15.4 Sound and Light Waves 495
15.5 Energy and Intensity 497
15.6 Loudness of Sound 500
15.7 The Doppler Effect and Shock Waves 502
Summary 507
Questions and Problems 508
Chapter 16 Superposition and Standing
Waves 514
16.1 The Principle of Superposition 514
16.2 Standing Waves 516
16.3 Standing Waves on a String 518
16.4 Standing Sound Waves 523
16.5 Speech and Hearing 528
16.6 The Interference of Waves
from Two Sources 530
16.7 Beats 535
Summary 538
Questions and Problems 539
Part Summary Oscillations and Waves:
Waves in the Earth and the Ocean 546
Part V Optics
Overview Light is a Wave 548
Chapter 17 Wave Optics 550
17.1 What is Light? 551
17.2 The Interference of Light 555
17.3 The Diffraction Grating 559
17.4 Thin-film Interference 563
17.5 Single-Slit Diffraction 567
17.6 Circular-Aperture Diffraction 571
Summary 573
Questions and Problems 574
Chapter 18 Ray Optics 580
18.1 The Ray Model of Light 581
18.2 Reflection 584
18.3 Refraction 588
18.4 Color and Dispersion 593
18.5 Image Formation by Refraction 596
18.6 Thin Lenses: Ray Tracing 597
18.7 Image Formation with Spherical
Mirrors 604
Summary 608
Questions and Problems 609
Chapter 19 Optical Instruments 615
19.1 Finding the Image of a Lens or Mirror 616
19.2 The Camera 621
19.3 The Human Eye 624
19.4 The Magnifier 627
19.5 The Microscope 630
19.6 The Telescope 631
19.7 Resolution of Optical Instruments 633
Summary 639
Questions and Problems 640
Part Summary Optics: Scanning Confocal Microscopy 646
Part VI Electricity and Magnetism
Overview Charges, Currents, and Fields 648
Chapter 20 Electric Forces and Fields 650
20.1 Charges and Forces 651
20.2 Charges, Atoms, and Molecules 657
20.3 Coulomb’s Law 660
20.4 The Concept of the Electric Field 664
20.5 Applications of the Electric Field 667
20.6 Conductors in an Electric Field 671
20.7 Forces and Torques on Charges
in Electric Fields 673
Summary 676
Questions and Problems 677
Chapter 21 Electrical Potential 684
21.1 Electric Potential Energy
and the Electric Potential 685
21.2 Using The Electric Potential 689
21.3 Calculating The Electric Potential 692
21.4 Sources of Electric Potential 698
21.5 Connecting Potential and Field 700
21.6 The Electrocardiogram 704
21.7 Capacitance and Capacitors 705
21.8 Polarization and Dielectrics 708
21.9 Energy and Capacitors 710
Summary 713
Questions and Problems 714
Chapter 22 Current and Resistance 722
22.1 A Model of Current 723
22.2 Defining and Describing Current 726
22.3 Batteries and EMF 728
22.4 Connecting Potential and Current 730
22.5 Resistors and Ohm’s Law 735
22.6 Energy and Power 739
Summary 742
Questions and Problems 743
Chapter 23 Circuits 749
23.1 Circuit Elements and Diagrams 750
23.2 Kirchhoff’s Laws 751
23.3 Series and Parallel Circuits 754
23.4 Measuring Voltage and Current 758
23.5 More Complex Circuits 760
23.6 Household Electricity 763
23.7 Capacitors in Parallel and Series 765
23.8 RC Circuits 768
23.9 Electricity in the Nervous System 771
Summary 778
Questions and Problems 779
Chapter 24 Magnetic Fields and Forces 788
24.1 Magnetism 789
24.2 The Magnetic Field 790
24.3 Electric Currents Also Create
Magnetic Fields 794
24.4 Calculating the Magnetic Field Due
to a Current 798
24.5 Magnetic Fields Exert Forces
on Moving Charges 803
24.6 Magnetic Fields Exert Forces
on Currents 810
24.7 Magnetic Fields Exert Torques
on Dipoles 814
24.8 Magnets and Magnetic Materials 818
Summary 821
Questions and Problems 822
Chapter 25 Electromagnetic Induction
and Electromagnetic Waves 831
25.1 Induced Currents 832
25.2 Motional EMF 833
25.3 Magnetic Flux 837
25.4 Faraday’s Law 841
25.5 Induced Fields and
Electromagnetic Waves 845
25.6 Properties of Electromagnetic
Waves 848
25.7 The Photon Model of
Electromagnetic Waves 852
25.8 The Electromagnetic Spectrum 853
Summary 859
Questions and Problems 860
Chapter 26 AC Circuits 868
26.1 Alternating Current 869
26.2 The Transmission and Use
of Electricity 872
26.3 Biological Effects and Electrical
Safety 876
26.4 Capacitor Circuits 878
26.5 Inductors and Inductor Circuits 881
26.6 Oscillation Circuits 883
Summary 888
Questions and Problems 889
Part Summary Electricity and Magnetism:
The Greenhouse Effect
and Global Warming 894
Part VII Modern Physics
Overview New Ways of Looking at the World 896
Chapter 27 Relativity 898
27.1 Relativity: What’s It All About? 899
27.2 Galilean Relativity 899
27.3 Einstein’s Principle of Relativity 903
27.4 Events and Measurements 906
27.5 The Relativity of Simultaneity 909
27.6 Time Dilation 911
27.7 Length Contraction 916
27.8 Velocities of Objects
in Special Relativity 919
27.9 Relativistic Momentum 920
27.10 Relativistic Energy 923
Summary 927
Questions and Problems 928
Chapter 28 Quantum Physics 934
28.1 X Rays and X-Ray Diffraction 935
28.2 The Photoelectric Effect 937
28.3 Photons 944
28.4 Matter Waves 946
28.5 Energy Is Quantized 949
28.6 Energy Levels and Quantum Jumps 951
28.7 The Uncertainty Principle 954
28.8 Applications and Implications
of Quantum Theory 957
Summary 960
Questions and Problems 961
Chapter 29 Atoms and Molecules 968
29.1 Spectroscopy 969
29.2 Atoms 972
29.3 Bohr’s Model of Atomic Quantization 976
29.4 The Bohr Hydrogen Atom 979
29.5 The Quantum-Mechanical
Hydrogen Atom 986
29.6 Multielectron Atoms 989
29.7 Excited States and Spectra 993
29.8 Molecules 997
29.9 Stimulated Emission and Lasers 999
Summary 1003
Questions and Problems 1004
Chapter 30 Nuclear Physics 1010
30.1 Nuclear Structure 1011
30.2 Nuclear Stability 1014
30.3 Forces and Energy in the Nucleus 1016
30.4 Radiation and Radioactivity 1018
30.5 Nuclear Decay Mechanisms 1025
30.6 Subatomic Particles 1028
30.7 Medical Applications
of Nuclear Physics 1031
Summary 1036
Questions and Problems 1037
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