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Principles of Physics Vol. 2 : A Calculus-Based Text,9780534491468
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Principles of Physics Vol. 2 : A Calculus-Based Text

by ;
Edition:
4th
ISBN13:

9780534491468

ISBN10:
0534491464
Format:
Hardcover
Pub. Date:
2/24/2005
Publisher(s):
Brooks Cole

Questions About This Book?

What version or edition is this?
This is the 4th edition with a publication date of 2/24/2005.
What is included with this book?
  • The New copy of this book will include any supplemental materials advertised. Please check the title of the book to determine if it should include any CDs, lab manuals, study guides, etc.

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Summary

VOLUME II. Context 5: Global Warming. 16. Temperature and the Kinetic Theory of Gases. 17. Energy in Thermal Processes - The First Law of Thermodynamics. 18. Heat Engines, Entropy, and the Second Law of Thermodynamics. Context 5: Conclusion: Predicting the Earth's Surface Temperature. Context 6: Lightning. 19. Electric Forces and Electric Fields. 20. Electric Potential and Capacitance. 21. Current and Direct Current Circuits. Context 6: Conclusion: Determining the Number of Lightning Strikes. Context 7: Magnetic Levitation Vehicles. 22. Magnetic Forces and Magnetic Fields. 23. Faraday's Law and Inductance. Context 7: Conclusion: Lifting, Propelling, and Braking the Vehicle. Context 8: Lasers. 24. Electromagnetic Waves. 25. Reflection and Refraction of Light. 26. Image Formation by Mirrors and Lenses. 27. Wave Optics. Context 8: Conclusion: Using Lasers to Record and Read Digital Information. Context 9: The Cosmic Connection. 28. Quantum Mechanics. 29. Atomic Physics. 30. Nuclear Physics. 31. Particle Physics. Context 9: Conclusion: Problems and Perspectives. Appendices. Answers to Odd-Numbered Problems. Index.

Table of Contents

CONTEXT 5 Global Warming
497(104)
Temperature and the Kinetic Theory of Cases
499(32)
Temperature and the Zeroth Law of Thermodynamics
500(1)
Thermometers and Temperature Scales
501(4)
Thermal Expansion of Solids and Liquids
505(5)
Macroscopic Description of an Ideal Gas
510(3)
The Kinetic Theory of Gases
513(5)
Distribution of Molecular Speeds
518(2)
Context Connection---The Atmospheric Lapse Rate
520(11)
Energy in Thermal Processes: The First Law of Thermodynamics
531(41)
Heat and Internal Energy
532(1)
Specific Heat
533(3)
Latent Heat and Phase Changes
536(3)
Work in Thermodynamic Processes
539(3)
The First Law of Thermodynamics
542(2)
Some Applications of the First Law of Thermodynamics
544(3)
Molar Specific Heats of Ideal Gases
547(3)
Adiabatic Processes for an Ideal Gas
550(1)
Molar Specific Heats and the Equipartition of Energy
551(3)
Energy Transfer Mechanisms in Thermal Processes
554(4)
Context Connection---Energy Balance for the Earth
558(14)
Heat Engines, Entropy, and the Second Law of Thermodynamics
572(29)
Heat Engines and the Second Law of Thermodynamics
573(2)
Reversible and Irreversible Processes
575(1)
The Carnot Engine
575(3)
Heat Pumps and Refrigerators
578(1)
An Alternative Statement of the Second Law
579(1)
Entropy
580(3)
Entropy and the Second Law of Thermodynamics
583(2)
Entropy Changes in Irreversible Processes
585(2)
Context Connection---The Atmosphere as a Heat Engine
587(10)
Conclusion Predicting the Earth's Surface Temperature
597(4)
CONTEXT 6 Lightning
601(124)
Electric Forces and Electric Fields
603(39)
Historical Overview
604(1)
Properties of Electric Charges
604(2)
Insulators and Conductors
606(2)
Coulomb's Law
608(3)
Electric Fields
611(5)
Electric Field Lines
616(2)
Motion of Charged Particles in a Uniform Electric Field
618(3)
Electric Flux
621(3)
Gauss's Law
624(2)
Application of Gauss's Law to Symmetric Charge Distributions
626(4)
Conductors in Electrostatic Equilibrium
630(1)
Context Connection---The Atmospheric Electric Field
631(11)
Electric Potential and Capacitance
642(41)
Potential Difference and Electric Potential
643(2)
Potential Differences in a Uniform Electric Field
645(2)
Electric Potential and Electric Potential Energy Due to Point Charges
647(3)
Obtaining Electric Field from Electric Potential
650(2)
Electric Potential Due to Continuous Charge Distributions
652(3)
Electric Potential of a Charged Conductor
655(1)
Capacitance
656(4)
Combinations of Capacitors
660(4)
Energy Stored in a Charged Capacitor
664(3)
Capacitors with Dielectrics
667(5)
Context Connection---The Atmosphere as a Capacitor
672(11)
Current and Direct Current Circuits
683(42)
Electric Current
684(3)
Resistance and Ohm's Law
687(4)
Superconductors
691(1)
A Structural Model for Electrical Conduction
692(4)
Electric Energy and Power
696(3)
Sources of emf
699(1)
Resistors in Series and in Parallel
700(5)
Kirchhoff's Rules
705(3)
RC Circuits
708(4)
Context Connection---The Atmosphere as a Conductor
712(11)
Conclusion Determining the Number of Lightning Strikes
723(2)
CONTEXT 7 Magnetic Levitation Vehicles
725(79)
Magnetic Forces and Magnetic Fields
727(38)
Historical Overview
728(1)
The Magnetic Field
728(4)
Motion of a Charged Particle in a Uniform Magnetic Field
732(3)
Applications Involving Charged Particles Moving in a Magnetic Field
735(3)
Magnetic Force on a Current-Carrying Conductor
738(3)
Torque on a Current Loop in a Uniform Magnetic Field
741(2)
The Biot--Savart Law
743(3)
The Magnetic Force Between Two Parallel Conductors
746(1)
Ampere's Law
747(3)
The Magnetic Field of a Solenoid
750(2)
Magnetism in Matter
752(1)
Context Connection---The Attractive Model for Magnetic Levitation
753(12)
Faraday's Law and Inductance
765(39)
Faraday's Law of Induction
765(5)
Motional emf
770(5)
Lenz's Law
775(3)
Induced emfs and Electric Fields
778(2)
Self-Inductance
780(2)
RL Circuits
782(3)
Energy Stored in a Magnetic Field
785(2)
Context Connection---The Repulsive Model for Magnetic Levitation
787(14)
Conclusion Lifting, Propelling, and Braking the Vehicle
801(3)
CONTEXT 8 Lasers
804(131)
Electromagnetic Waves
806(33)
Displacement Current and the Generalized Ampere's Law
807(1)
Maxwell's Equations
808(2)
Electromagnetic Waves
810(4)
Hertz's Discoveries
814(4)
Energy Carried by Electromagnetic Waves
818(2)
Momentum and Radiation Pressure
820(2)
The Spectrum of Electromagnetic Waves
822(2)
Polarization
824(2)
Context Connection---The Special Properties of Laser Light
826(13)
Reflection and Refraction of Light
839(28)
The Nature of Light
840(1)
The Ray Model in Geometric Optics
841(1)
The Wave Under Reflection
842(3)
The Wave Under Refraction
845(5)
Dispersion and Prisms
850(1)
Huygens's Principle
851(2)
Total Internal Reflection
853(2)
Context Connection---Optical Fibers
855(12)
Image Formation by Mirrors and Lenses
867(31)
Images Formed by Flat Mirrors
868(3)
Images Formed by Spherical Mirrors
871(7)
Images Formed by Refraction
878(3)
Thin Lenses
881(7)
Context Connection---Medical Fiberscopes
888(10)
Wave Optics
898(37)
Conditions for Interference
899(1)
Young's Double-Slit Experiment
899(2)
Light Waves in Interference
901(3)
Change of Phase Due to Reflection
904(1)
Interference in Thin Films
905(4)
Diffraction Patterns
909(3)
Resolution of Single-Slit and Circular Apertures
912(3)
The Diffraction Grating
915(3)
Diffraction of X-Rays by Crystals
918(2)
Context Connection---Holography
920(11)
Conclusion Using Lasers to Record and Read Digital Information
931(4)
CONTEXT 9 The Cosmic Connection
935
Quantum Physics
937(46)
Blackbody Radiation and Planck's Theory
938(4)
The Photoelectric Effect
942(5)
The Compton Effect
947(2)
Photons and Electromagnetic Waves
949(1)
The Wave Properties of Particles
950(4)
The Quantum Particle
954(3)
The Double-Slit Experiment Revisited
957(2)
The Uncertainty Principle
959(2)
An Interpretation of Quantum Mechanics
961(2)
A Particle in a Box
963(3)
The Quantum Particle Under Boundary Conditions
966(1)
The Schrodinger Equation
967(3)
Tunneling Through a Potential Energy Barrier
970(3)
Context Connection---The Cosmic Temperature
973(10)
Atomic Physics
983(33)
Early Structural Models of the Atom
984(1)
The Hydrogen Atom Revisited
985(2)
The Wave Functions for Hydrogen
987(4)
Physical Interpretation of the Quantum Numbers
991(6)
The Exclusion Principle and the Periodic Table
997(6)
More on Atomic Spectra: Visible and X-Ray
1003(4)
Context Connection---Atoms in Space
1007(9)
Nuclear Physics
1016(32)
Some Properties of Nuclei
1017(6)
Binding Energy
1023(2)
Radioactivity
1025(4)
The Radioactive Decay Processes
1029(6)
Nuclear Reactions
1035(1)
Context Connection---The Engine of the Stars
1036(12)
Particle Physics
1048
The Fundamental Forces in Nature
1049(1)
Positrons and Other Antiparticles
1050(3)
Mesons and the Beginning of Particle Physics
1053(2)
Classification of Particles
1055(2)
Conservation Laws
1057(3)
Strange Particles and Strangeness
1060(1)
Measuring Particle Lifetimes
1061(2)
Finding Patterns in the Particles
1063(2)
Quarks
1065(3)
Colored Quarks
1068(2)
The Standard Model
1070(2)
Context Connection---Investigating the Smallest System to Understand the Largest
1072(14)
Conclusion Problems and Perspectives
1086
Appendix A Tables
1(12)
Conversion Factors
1(1)
Symbols, Dimensions, and Units of Physical Quantities
2(2)
Table of Atomic Masses
4(9)
Appendix B Mathematics Review
13(17)
Scientific Notation
13(1)
Algebra
14(5)
Geometry
19(1)
Trigonometry
20(2)
Series Expansions
22(1)
Differential Calculus
22(2)
Integral Calculus
24(3)
Propagation of Uncertainty
27(3)
Appendix C Periodic Table of the Elements
30(2)
Appendix D SI Units
32(1)
SI Base Units
32(1)
Some Derived SI Units
32(1)
Appendix E Nobel Prizes
33(5)
Answers to Odd-Numbered Problems 38
Index 1


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