College Physics 10th edition

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College Physics 10th edition Raymond A. Serway and Chris Vuille Publisher: Cengage Learning Table of Contents PHY101 covers chapters 1-8 PHY102 covers chapters 9-25 Chapter 1: Introduction 1.1: Standards of Length, Mass, and Time 1.2: The Building Blocks of Matter 1.3: Dimensional Analysis (6) 1.4: Uncertainty Measurement and Significant Figures (8) 1.5: Conversion of Units (14) 1.6: Estimates and Order-of-Magnitude Calculations (7) 1.7: Coordinate Systems (7) 1.8: Trigonometry (11) 1.9: Problem-Solving Strategy 1: Additional Problems (15) 1: Warm-Up Exercises (9) 1: Conceptual Questions (13) 1: Active Examples (9) 1: Active Figures (2) 1: Training Tutorials (1) 1: PreLecture Explorations Chapter 2: Motion in One Dimension 2.1: Displacement 2.2: Velocity (20)

2.3: Acceleration (6) 2.4: Motion Diagrams 2.5: One-Dimensional Motion with Constant Acceleration (21) 2.6: Freely Falling Objects (10) 2: Additional Problems (23) 2: Warm-Up Exercises (7) 2: Conceptual Questions (14) 2: Active Examples (9) 2: Active Figures (4) 2: Training Tutorials (1) 2: Quick Quizzes (8) 2: PreLecture Explorations (2) Chapter 3: Vectors and Two-Dimensional Motion 3.1: Vectors and Their Properties (9) 3.2: Components of a Vector (13) 3.3: Displacement, Velocity, and Acceleration in Two Dimensions 3.4: Motion in Two Dimensions (14) 3.5: Relative Velocity (10) 3: Additional Problems (33) 3: Warm-Up Exercises (9) 3: Conceptual Questions (15) 3: Active Examples (11) 3: Active Figures (3) 3: Training Tutorials (2) 3: Quick Quizzes (5) 3: PreLecture Explorations (1) Chapter 4: The Laws of Motion 4.1: Forces 4.2: Newton's First Law 4.3: Newton's Second Law 4.4: Newton's Third Law (17) 4.5: Applications of Newton's Laws (23)

4.6: Forces of Friction (18) 4: Additional Problems (33) 4: Warm-Up Exercises (13) 4: Conceptual Questions (21) 4: Active Examples (13) 4: Active Figures (3) 4: Training Tutorials (5) 4: Quick Quizzes (7) 4: PreLecture Explorations (5) Chapter 5: Energy 5.1: Work (10) 5.2: Kinetic Energy and the Work-Energy Theorem (10) 5.3: Gravitational Potential Energy 5.4: Spring Potential Energy (14) 5.5: Systems and Energy Conservation (19) 5.6: Power (9) 5.7: Work Done by a Varying Force (4) 5: Additional Problems (32) 5: Warm-Up Exercises (10) 5: Conceptual Questions (20) 5: Active Examples (16) 5: Active Figures (4) 5: Training Tutorials (5) 5: Quick Quizzes (4) 5: PreLecture Explorations (3) Chapter 6: Momentum and Collisions 6.1: Momentum and Impulse (21) 6.2: Conservation of Momentum (8) 6.3: Collisions 6.4: Glancing Collisions (25) 6.5: Rocket Propulsion 6: Additional Problems (30) 6: Warm-Up Exercises (11) 6: Conceptual Questions (18)

6: Active Examples (8) 6: Active Figures (3) 6: Training Tutorials (2) 6: Quick Quizzes (6) 6: PreLecture Explorations (1) Chapter 7: Rotational Motion and the Law of Gravity 7.1: Angular Speed and Angular Acceleration (4) 7.2: Rotational Motion Under Constant Angular Acceleration 7.3: Relations Between Angular and Linear Quantities (11) 7.4: Centripetal Acceleration (20) 7.5: Newtonian Gravitation (8) 7.6: Kepler's Laws (6) 7: Additional Problems (32) 7: Warm-Up Exercises (15) 7: Conceptual Questions (13) 7: Active Examples (13) 7: Active Figures (5) 7: Training Tutorials (2) 7: Quick Quizzes (10) 7: PreLecture Explorations (1) Chapter 8: Rotational Equilibrium and Rotational Dynamics 8.1: Torque (7) 8.2: Torque and the Two Conditions for Equilibrium 8.3: The Center of Gravity 8.4: Examples of Objects in Equilibrium (25) 8.5: Relationship Between Torque and Angular Acceleration (12) 8.6: Rotational Kinetic Energy (12) 8.7: Angular Momentum (15) 8: Additional Problems (23) 8: Warm-Up Exercises (14) 8: Conceptual Questions (17) 8: Active Examples (15) 8: Active Figures (2)

8: Training Tutorials (4) 8: Quick Quizzes (6) 8: PreLecture Explorations (3) Chapter 9: Solids and Fluids 9.1: States of Matter 9.2: Density and Pressure (8) 9.3: The Deformation of Solids (14) 9.4: Variation of Pressure with Depth 9.5: Pressure Measurements (9) 9.6: Buoyant Forces and Archimedes' Principle (16) 9.7: Fluids in Motion 9.8: Other Applications of Fluid Dynamics (16) 9.9: Surface Tension, Capillary Action, and Viscous Fluid Flow (14) 9.10: Transport Phenomena (4) 9: Additional Problems (15) 9: Warm-Up Exercises (11) 9: Conceptual Questions (16) 9: Active Examples (16) 9: Active Figures (5) 9: Training Tutorials (2) 9: Quick Quizzes (6) 9: PreLecture Explorations (4) Chapter 10: Thermal Physics 10.1: Temperature and the Zeroth Law of Thermodynamics 10.2: Thermometers and Temperature Scales (11) 10.3: Thermal Expansion of Solids and Liquids (19) 10.4: Macroscopic Description of an Ideal Gas (11) 10.5: The Kinetic Theory of Gases (9) 10: Additional Problems (19) 10: Warm-Up Exercises (10) 10: Conceptual Questions (14) 10: Active Examples (9) 10: Active Figures (3)

10: Training Tutorials (1) 10: Quick Quizzes (4) 10: PreLecture Explorations (2) Chapter 11: Energy in Thermal Processes 11.1: Heat and Internal Energy 11.2: Specific Heat (15) 11.3: Calorimetry (12) 11.4: Latent Heat and Phase Change (14) 11.5: Energy Transfer (14) 11.6: Global Warming and Greenhouse Gases 11: Additional Problems (24) 11: Warm-Up Exercises (9) 11: Conceptual Questions (15) 11: Active Examples (7) 11: Training Tutorials (1) 11: Quick Quizzes (5) 11: PreLecture Explorations Chapter 12: The Laws of Thermodynamics 12.1: Work in Thermodynamic Processes (11) 12.2: The First Law of Thermodynamics 12.3: Thermal Processes (19) 12.4: Heat Engines and the Second Law of Thermodynamics (17) 12.5: Entropy (11) 12.6: Human Metabolism (3) 12: Additional Problems (16) 12: Warm-Up Exercises (14) 12: Conceptual Questions (17) 12: Active Examples (16) 12: Active Figures (5) 12: Training Tutorials (2) 12: Quick Quizzes (5) 12: PreLecture Explorations (3)

Chapter 13: Vibrations and Waves 13.1: Hooke's Law (7) 13.2: Elastic Potential Energy (9) 13.3: Comparing Simple Harmonic Motion with Uniform Circular Motion 13.4: Position, Velocity, and Acceleration as a Function of Time (19) 13.5: Motion of a Pendulum (8) 13.6: Damped Oscillations 13.7: Waves 13.8: Frequency, Amplitude, and Wavelength (8) 13.9: The Speed of Waves on Strings (14) 13.10: Interference of Waves 13.11: Reflection of Waves (1) 13: Additional Problems (16) 13: Warm-Up Exercises (11) 13: Conceptual Questions (12) 13: Active Examples (9) 13: Active Figures (10) 13: Training Tutorials (1) 13: Quick Quizzes (9) 13: PreLecture Explorations (5) Chapter 14: Sound 14.1: Producing a Sound Wave 14.2: Characteristics of Sound Waves 14.3: The Speed of Sound (9) 14.4: Energy and Intensity of Sound Waves 14.5: Spherical and Plane Waves (14) 14.6: The Doppler Effect (12) 14.7: Interference of Sound Waves (5) 14.8: Standing Waves (11) 14.9: Forced Vibrations and Resonance (1) 14.10: Standing Waves in Air Columns (7) 14.11: Beats (5) 14.12: Quality of Sound

14.13: The Ear (2) 14: Additional Problems (16) 14: Warm-Up Exercises (14) 14: Conceptual Questions (11) 14: Active Examples (10) 14: Active Figures (5) 14: Training Tutorials (2) 14: Quick Quizzes (7) 14: PreLecture Explorations (1) Chapter 15: Electric Forces and Electric Fields 15.1: Properties of Electric Charges 15.2: Insulators and Conductors 15.3: Coulomb's Law (16) 15.4: The Electric Field (14) 15.5: Electric Field Lines 15.6: Conductors in Electrostatic Equilibrium (6) 15.7: The Millikan Oil-Drop Experiment 15.8: The Van de Graaff Generator (4) 15.9: Electric Flux and Gauss's Law (10) 15: Additional Problems (18) 15: Warm-Up Exercises (14) 15: Conceptual Questions (17) 15: Active Examples (6) 15: Active Figures (5) 15: Training Tutorials (2) 15: Quick Quizzes (10) 15: PreLecture Explorations (3) Chapter 16: Electrical Energy and Capacitance 16.1: Electric Potential Energy and Electric Potential (11) 16.2: Electric Potential and Potential Energy Due to Point Charges 16.3: Potentials and Charged Conductors 16.4: Equipotential Surfaces (15) 16.5: Applications

16.6: Capacitance 16.7: The Parallel-Plate Capacitor (9) 16.8: Combinations of Capacitors (13) 16.9: Energy Stored in a Charged Capacitor (4) 16.10: Capacitors with Dielectrics (5) 16: Additional Problems (16) 16: Warm-Up Exercises (12) 16: Conceptual Questions (13) 16: Active Examples (9) 16: Active Figures (4) 16: Training Tutorials (2) 16: Quick Quizzes (11) 16: PreLecture Explorations (3) Chapter 17: Current and Resistance 17.1: Electric Current 17.2: A Microscopic View: Current and Drift Speed (10) 17.3: Current and Voltage Measurements In Circuits 17.4: Resistance, Resistivity, and Ohm's Law (13) 17.5: Temperature Variation of Resistance (12) 17.6: Electrical Energy and Power (17) 17.7: Superconductors 17.8: Electrical Activity in the Heart 17: Additional Problems (19) 17: Warm-Up Exercises (10) 17: Conceptual Questions (11) 17: Active Examples (6) 17: Active Figures (2) 17: Training Tutorials (1) 17: Quick Quizzes (10) 17: PreLecture Explorations (1) Chapter 18: Direct-Current Circuits 18.1: Sources of emf 18.2: Resistors in Series 18.3: Resistors in Parallel (16)

18.4: Kirchhoff's Rules and Complex DC Circuits (16) 18.5: RC Circuits (7) 18.6: Household Circuits (5) 18.7: Electrical Safety 18.8: Conduction of Electrical Signals by Neurons (3) 18: Additional Problems (24) 18: Warm-Up Exercises (13) 18: Conceptual Questions (14) 18: Active Examples (7) 18: Active Figures (4) 18: Training Tutorials (2) 18: Quick Quizzes (9) 18: PreLecture Explorations (4) Chapter 19: Magnetism 19.1: Magnets 19.2: Earth's Magnetic Field 19.3: Magnetic Fields (13) 19.4: Magnetic Force on a Current-Carrying Conductor (13) 19.5: Torque on a Current Loop and Electric Motors (9) 19.6: Motion of a Charged Particle in a Magnetic Field (10) 19.7: Magnetic Field of a Long, Straight Wire and Ampère's Law (13) 19.8: Magnetic Force Between Two Parallel Conductors (4) 19.9: Magnetic Fields of Current Loops and Solenoids (6) 19.10: Magnetic Domains 19: Additional Problems (13) 19: Warm-Up Exercises (9) 19: Conceptual Questions (19) 19: Active Examples (8) 19: Active Figures (5) 19: Training Tutorials (2) 19: Quick Quizzes (6) 19: PreLecture Explorations (3) Chapter 20: Induced Voltages and Inductance

20.1: Induced emf and Magnetic Flux (8) 20.2: Faraday's Law of Induction and Lenz's Law (16) 20.3: Motional emf (9) 20.4: Generators (7) 20.5: Self-Inductance (6) 20.6: RL Circuits (6) 20.7: Energy Stored in a Magnetic Field (5) 20: Additional Problems (15) 20: Warm-Up Exercises (10) 20: Conceptual Questions (14) 20: Active Examples (9) 20: Active Figures (5) 20: Training Tutorials (3) 20: Quick Quizzes (6) 20: PreLecture Explorations (5) Chapter 21: Alternating-Current Circuits and Electromagnetic Waves 21.1: Resistors in an AC Circuit (6) 21.2: Capacitors in an AC Circuit (7) 21.3: Inductors in an AC Circuit (6) 21.4: The RLC Series Circuit (13) 21.5: Power in an AC Circuit (7) 21.6: Resonance in a Series RLC Circuit (7) 21.7: The Transformer (6) 21.8: Maxwell's Predictions 21.9: Hertz's Confirmation of Maxwell's Predictions 21.10: Production of Electromagnetic Waves by an Antenna 21.11: Properties of Electromagnetic Waves (10) 21.12: The Spectrum of Electromagnetic Waves (5) 21.13: The Doppler Effect for Electromagnetic Waves (3) 21: Additional Problems (11) 21: Warm-Up Exercises (11) 21: Conceptual Questions (19) 21: Active Examples (9) 21: Active Figures (6)

21: Training Tutorials (2) 21: Quick Quizzes (8) 21: PreLecture Explorations (1) Chapter 22: Reflection and Refraction of Light 22.1: The Nature of Light (8) 22.2: Reflection and Refraction 22.3: The Law of Refraction (22) 22.4: Dispersion and Prisms (7) 22.5: The Rainbow 22.6: Huygens' Principle 22.7: Total Internal Reflection (12) 22: Additional Problems (17) 22: Warm-Up Exercises (5) 22: Conceptual Questions (15) 22: Active Examples (5) 22: Active Figures (5) 22: Training Tutorials (1) 22: Quick Quizzes (4) 22: PreLecture Explorations (2) Chapter 23: Mirrors and Lenses 23.1: Flat Mirrors (5) 23.2: Images Formed by Concave Mirrors 23.3: Convex Mirrors and Sign Conventions (17) 23.4: Images Formed by Refraction (8) 23.5: Atmospheric Refraction 23.6: Thin Lenses (20) 23.7: Lens and Mirror Aberrations 23: Additional Problems (21) 23: Warm-Up Exercises (7) 23: Conceptual Questions (17) 23: Active Examples (9) 23: Active Figures (4) 23: Training Tutorials (2) 23: Quick Quizzes (6)

23: PreLecture Explorations (2) Chapter 24: Wave Optics 24.1: Conditions for Interference 24.2: Young's Double-Slit Experiment (17) 24.3: Change of Phase Due to Reflection 24.4: Interference in Thin Films (16) 24.5: Using Interference to Read CDs and DVDs 24.6: Diffraction 24.7: Single-Slit Diffraction (9) 24.8: The Diffraction Grating (13) 24.9: Polarization of Light Waves (12) 24: Additional Problems (13) 24: Warm-Up Exercises (10) 24: Conceptual Questions (16) 24: Active Examples (8) 24: Active Figures (5) 24: Training Tutorials (3) 24: Quick Quizzes (6) 24: PreLecture Explorations (3) Chapter 25: Optical Instruments 25.1: The Camera (8) 25.2: The Eye (11) 25.3: The Simple Magnifier (6) 25.4: The Compound Microscope 25.5: The Telescope (13) 25.6: Resolution of Single-Slit and Circular Apertures (11) 25.7: The Michelson Interferometer (7) 25: Additional Problems (11) 25: Warm-Up Exercises (12) 25: Conceptual Questions (15) 25: Active Examples (8) 25: Active Figures (3) 25: Training Tutorials (2) 25: PreLecture Explorations

Chapter 26: Relativity 26.1: Galilean Relativity 26.2: The Speed of Light 26.3: Einstein's Principle of Relativity 26.4: Consequences of Special Relativity (13) 26.5: Relativistic Momentum (3) 26.6: Relative Velocity in Special Relativity (7) 26.7: Relativistic Energy and the Equivalence of Mass and Energy (9) 26.8: General Relativity 26: Additional Problems (23) 26: Warm-Up Exercises (10) 26: Conceptual Questions (12) 26: Active Examples (5) 26: Active Figures (3) 26: Training Tutorials (1) 26: Quick Quizzes (7) 26: PreLecture Explorations Chapter 27: Quantum Physics 27.1: Blackbody Radiation and Planck's Hypothesis (9) 27.2: The Photoelectric Effect and the Particle Theory of Light (6) 27.3: X-Rays (3) 27.4: Diffraction of X-Rays by Crystals (5) 27.5: The Compton Effect (6) 27.6: The Dual Nature of Light and Matter (6) 27.7: The Wave Function 27.8: The Uncertainty Principle (7) 27: Additional Problems (13) 27: Warm-Up Exercises (11) 27: Conceptual Questions (16) 27: Active Examples (5) 27: Active Figures (3) 27: Training Tutorials (1)

27: Quick Quizzes (5) 27: PreLecture Explorations Chapter 28: Atomic Physics 28.1: Early Models of the Atom 28.2: Atomic Spectra (5) 28.3: The Bohr Model (23) 28.4: Quantum Mechanics and the Hydrogen Atom (3) 28.5: The Exclusion Principle and the Periodic Table (4) 28.6: Characteristic X-Rays (5) 28.7: Atomic Transitions and Lasers 28: Additional Problems (10) 28: Warm-Up Exercises (10) 28: Conceptual Questions (15) 28: Active Examples (4) 28: Active Figures (2) 28: Training Tutorials (1) 28: Quick Quizzes (3) 28: PreLecture Explorations Chapter 29: Nuclear Physics 29.1: Some Properties of Nuclei (9) 29.2: Binding Energy (6) 29.3: Radioactivity (9) 29.4: The Decay Processes (10) 29.5: Natural Radioactivity 29.6: Nuclear Reactions (8) 29.7: Medical Applications of Radiation (8) 29: Additional Problems (11) 29: Warm-Up Exercises (10) 29: Conceptual Questions (13) 29: Active Examples (2) 29: Active Figures (3) 29: Training Tutorials (1) 29: Quick Quizzes (5) 29: PreLecture Explorations

Chapter 30: Nuclear Energy and Elementary Particles 30.1: Nuclear Fission (13) 30.2: Nuclear Fusion (6) 30.3: Elementary Particles and the Fundamental Forces 30.4: Positrons and Other Antiparticles (4) 30.5: Classification of Particles 30.6: Conservation Laws (6) 30.7: The Eightfold Way 30.8: Quarks and Color (6) 30.9: Electroweak Theory and the Standard Model 30.10: The Cosmic Connection 30.11: Unanswered Questions in Cosmology 30.12: Problems and Perspectives 30: Additional Problems (14) 30: Warm-Up Exercises (10) 30: Conceptual Questions (12) 30: Active Examples (4) 30: Active Figures (1) 30: Training Tutorials (1) 30: Quick Quizzes (2) 30: PreLecture Explorations

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