WebAssign Companion to Serway: College Physics 11/e 11th edition

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  • Chapter 1: Units, Trigonometry, and Vectors
    • 1.1: Standards of Length, Mass, and Time
    • 1.2: The Building Blocks of Matter
    • 1.3: Dimensional Analysis
    • 1.4: Uncertainty Measurement and Significant Figures (16)
    • 1.5: Unit Conversions for Physical Quantities (6)
    • 1.6: Estimates and Order-of-Magnitude Calculations (7)
    • 1.7: Coordinate Systems
    • 1.8: Trigonometry Review (1)
    • 1.9: Vectors (1)
    • 1.10: Components of a Vector (23)
    • 1.11: Problem-Solving Strategy

  • Chapter 2: Motion in One Dimension
    • 2.1: Displacement, Velocity, and Acceleration (15)
    • 2.2: Motion Diagrams (6)
    • 2.3: One-Dimensional Motion with Constant Acceleration (11)
    • 2.4: Freely Falling Objects (13)

  • Chapter 3: Motion in Two Dimensions
    • 3.1: Displacement, Velocity, and Acceleration in Two Dimensions (6)
    • 3.2: Two-Dimensional Motion (23)
    • 3.3: Relative Velocity (6)

  • Chapter 4: Newton's Laws of Motion
    • 4.1: Forces
    • 4.2: The Laws of Motion (25)
    • 4.3: The Normal and Kinetic Friction Forces (21)
    • 4.4: Static Friction Forces (4)
    • 4.5: Tension Forces (10)
    • 4.6: Applications of Newton's Laws (18)
    • 4.7: Two-Body Problems (15)

  • Chapter 5: Energy
    • 5.1: Work (6)
    • 5.2: Kinetic Energy and the Work–Energy Theorem (14)
    • 5.3: Gravitational Potential Energy (6)
    • 5.4: Gravity and Nonconservative Forces (1)
    • 5.5: Spring Potential Energy (7)
    • 5.6: Systems and Energy Conservation (22)
    • 5.7: Power (10)
    • 5.8: Work Done by a Varying Force

  • Chapter 6: Momentum, Impulse, and Collisions
    • 6.1: Momentum and Impulse (11)
    • 6.2: Conservation of Momentum (13)
    • 6.3: Collisions in One Dimension (21)
    • 6.4: Glancing Collisions (11)
    • 6.5: Rocket Propulsion (5)

  • Chapter 7: Rotational Motion and Gravitation
    • 7.1: Angular Velocity and Angular Acceleration (8)
    • 7.2: Rotational Motion Under Constant Angular Acceleration (5)
    • 7.3: Tangential Velocity, Tangential Acceleration, and Centripetal Acceleration (24)
    • 7.4: Newton's Second Law for Uniform Circular Motion (16)
    • 7.5: Newtonian Gravitation (21)

  • Chapter 8: Rotational Equilibrium and Dynamics
    • 8.1: Torque (9)
    • 8.2: Center of Mass and Its Motion (8)
    • 8.3: Torque and the Two Conditions for Equilibrium (23)
    • 8.4: The Rotational Second Law of Motion (14)
    • 8.5: Rotational Kinetic Energy (14)
    • 8.6: Angular Momentum (19)

  • Chapter 9: Fluids and Solids
    • 9.1: States of Matter
    • 9.2: Density and Pressure (8)
    • 9.3: Variation of Pressure with Depth (12)
    • 9.4: Pressure Measurements (8)
    • 9.5: Buoyant Forces and Archimedes' Principle (11)
    • 9.6: Fluids in Motion (27)
    • 9.7: Other Applications of Fluid Dynamics
    • 9.8: Surface Tension, Capillary Action, and Viscous Fluid Flow (18)
    • 9.9: Transport Phenomena (2)
    • 9.10: The Deformation of Solids (24)

  • Chapter 10: Thermal Physics
    • 10.1: Temperature and the Zeroth Law of Thermodynamics
    • 10.2: Thermometers and Temperature Scales (7)
    • 10.3: Thermal Expansion of Solids and Liquids (13)
    • 10.4: The Ideal Gas Law (21)
    • 10.5: The Kinetic Theory of Gases (8)

  • Chapter 11: Energy in Thermal Processes
    • 11.1: Heat and Internal Energy (2)
    • 11.2: Specific Heat (7)
    • 11.3: Calorimetry (6)
    • 11.4: Latent Heat and Phase Change (22)
    • 11.5: Energy Transfer (15)
    • 11.6: Climate Change and Greenhouse Gases

  • Chapter 12: The Laws of Thermodynamics
    • 12.1: Work in Thermodynamic Processes (4)
    • 12.2: The First Law of Thermodynamics (8)
    • 12.3: Thermal Processes in Gases (6)
    • 12.4: Heat Engines and the Second Law of Thermodynamics (18)
    • 12.5: Entropy (7)
    • 12.6: Human Metabolism

  • Chapter 13: Vibrations and Waves
    • 13.1: Hooke's Law (4)
    • 13.2: Elastic Potential Energy (5)
    • 13.3: Concepts of Oscillation Rates in Simple Harmonic Motion (14)
    • 13.4: Position, Velocity, and Acceleration as Functions of Time (17)
    • 13.5: Motion of a Pendulum (6)
    • 13.6: Damped Oscillations
    • 13.7: Waves
    • 13.8: Frequency, Amplitude, and Wavelength (6)
    • 13.9: The Speed of Waves on Strings
    • 13.10: Interference of Waves (4)
    • 13.11: Reflection of Waves

  • Chapter 14: Sound
    • 14.1: Producing a Sound Wave
    • 14.2: Characteristics of Sound Waves
    • 14.3: The Speed of Sound (8)
    • 14.4: Energy and Intensity of Sound Waves (13)
    • 14.5: Spherical and Plane Waves (3)
    • 14.6: The Doppler Effect (13)
    • 14.7: Interference of Sound Waves
    • 14.8: Standing Waves (3)
    • 14.9: Forced Vibrations and Resonance
    • 14.10: Standing Waves in Air Columns (10)
    • 14.11: Beats (4)
    • 14.12: Quality of Sound
    • 14.13: The Ear (8)

  • Chapter 15: Electric Forces and Fields
    • 15.1: Electric Charges, Insulators, and Conductors (13)
    • 15.2: Coulomb's Law (14)
    • 15.3: Electric Fields (21)
    • 15.4: Electric Field Lines (9)
    • 15.5: Conductors in Electrostatic Equilibrium (1)
    • 15.6: The Millikan Oil-Drop Experiment (3)
    • 15.7: The Van de Graaff Generator
    • 15.8: Electric Flux and Gauss' Law (1)

  • Chapter 16: Electrical Energy and Capacitance
    • 16.1: Electric Potential Energy and Electric Potential (19)
    • 16.2: Electric Potential and Potential Energy of Point Charges (13)
    • 16.3: Potentials, Charged Conductors, and Equipotential Surfaces (5)
    • 16.4: Applications
    • 16.5: Capacitance (7)
    • 16.6: Combinations of Capacitors (5)
    • 16.7: Energy in a Capacitor (5)
    • 16.8: Capacitors with Dielectrics (2)

  • Chapter 17: Current and Resistance
    • 17.1: Electric Current (6)
    • 17.2: A Microscopic View: Current and Drift Speed (4)
    • 17.3: Current and Voltage Measurements In Circuits
    • 17.4: Resistance, Resistivity, and Ohm's Law (12)
    • 17.5: Temperature Variation of Resistance (3)
    • 17.6: Electrical Energy and Power (20)
    • 17.7: Superconductors
    • 17.8: Electrical Activity in the Heart

  • Chapter 18: Direct-Current Circuits
    • 18.1: Sources of emf (7)
    • 18.2: Resistors in Series (1)
    • 18.3: Resistors in Parallel (15)
    • 18.4: Kirchhoff's Rules and Complex DC Circuits (12)
    • 18.5: RC Circuits (12)
    • 18.6: Household Circuits (2)
    • 18.7: Electrical Safety
    • 18.8: Conduction of Electrical Signals by Neurons

  • Chapter 19: Magnetism
    • 19.1: Magnets
    • 19.2: Earth's Magnetic Field
    • 19.3: Magnetic Fields (7)
    • 19.4: Motion of a Charged Particle in a Magnetic Field (13)
    • 19.5: Magnetic Force on a Current-Carrying Conductor (14)
    • 19.6: Magnetic Torque (12)
    • 19.7: Ampère's Law (3)
    • 19.8: Magnetic Force Between Two Parallel Conductors (6)
    • 19.9: Magnetic Fields of Current Loops and Solenoids (5)
    • 19.10: Magnetic Domains

  • Chapter 20: Induced Voltages and Inductance
    • 20.1: Induced emf and Magnetic Flux (4)
    • 20.2: Faraday's Law of Induction and Lenz's Law (10)
    • 20.3: Motional emf (7)
    • 20.4: Generators (8)
    • 20.5: Self-Inductance (3)
    • 20.6: RL Circuits (7)
    • 20.7: Energy Stored in a Magnetic Field (2)

  • Chapter 21: Alternating-Current Circuits and Electromagnetic Waves
    • 21.1: Resistors in an AC Circuit (8)
    • 21.2: Capacitors in an AC Circuit (4)
    • 21.3: Inductors in an AC Circuit (5)
    • 21.4: The RLC Series Circuit (4)
    • 21.5: Power in an AC Circuit (6)
    • 21.6: Resonance in a Series RLC Circuit (4)
    • 21.7: The Transformer (3)
    • 21.8: Maxwell's Predictions (1)
    • 21.9: Hertz's Confirmation of Maxwell's Predictions
    • 21.10: Production of Electromagnetic Waves by an Antenna (3)
    • 21.11: Properties of Electromagnetic Waves (26)
    • 21.12: The Spectrum of Electromagnetic Waves (14)
    • 21.13: The Doppler Effect for Electromagnetic Waves (3)

  • Chapter 22: Reflection and Refraction of Light
    • 22.1: The Nature of Light (6)
    • 22.2: Reflection and Refraction (8)
    • 22.3: The Law of Refraction (11)
    • 22.4: Dispersion and Prisms (6)
    • 22.5: The Rainbow
    • 22.6: Huygens' Principle
    • 22.7: Total Internal Reflection (12)

  • Chapter 23: Mirrors and Lenses
    • 23.1: Flat Mirrors (1)
    • 23.2: Images Formed by Spherical Mirrors (11)
    • 23.3: Images Formed by Refraction
    • 23.4: Atmospheric Refraction
    • 23.5: Thin Lenses (10)
    • 23.6: Lens and Mirror Aberrations

  • Chapter 24: Wave Optics
    • 24.1: Conditions for Interference
    • 24.2: Young's Double-Slit Experiment (19)
    • 24.3: Change of Phase Due to Reflection
    • 24.4: Interference in Thin Films (7)
    • 24.5: Using Interference to Read CDs and DVDs
    • 24.6: Diffraction
    • 24.7: Single-Slit Diffraction (13)
    • 24.8: Diffraction Gratings (4)
    • 24.9: Polarization of Light Waves (10)

  • Chapter 25: Optical Instruments
    • 25.1: The Camera
    • 25.2: The Eye (27)
    • 25.3: The Simple Magnifier
    • 25.4: The Compound Microscope (13)
    • 25.5: The Telescope (15)
    • 25.6: Resolution of Single-Slit and Circular Apertures (6)
    • 25.7: The Michelson Interferometer

  • Chapter 26: Relativity
    • 26.1: Galilean Relativity (1)
    • 26.2: The Speed of Light
    • 26.3: Einstein's Principle of Relativity
    • 26.4: Consequences of Special Relativity (11)
    • 26.5: Relativistic Momentum (3)
    • 26.6: Relative Velocity in Special Relativity (3)
    • 26.7: Relativistic Energy and the Equivalence of Mass and Energy (10)
    • 26.8: General Relativity

  • Chapter 27: Quantum Physics
    • 27.1: Blackbody Radiation and Planck's Hypothesis (3)
    • 27.2: The Photoelectric Effect and the Particle Theory of Light (8)
    • 27.3: X-Rays (4)
    • 27.4: Diffraction of X-Rays by Crystals
    • 27.5: The Compton Effect (5)
    • 27.6: The Dual Nature of Light and Matter (10)
    • 27.7: The Wave Function
    • 27.8: The Uncertainty Principle (7)

  • Chapter 28: Atomic Physics
    • 28.1: Early Models of the Atom
    • 28.2: Atomic Spectra (3)
    • 28.3: The Bohr Model (10)
    • 28.4: Quantum Mechanics and the Hydrogen Atom
    • 28.5: The Exclusion Principle and the Periodic Table (4)
    • 28.6: Characteristic X-Rays (2)
    • 28.7: Atomic Transitions and Lasers (2)

  • Chapter 29: Nuclear Physics
    • 29.1: Some Properties of Nuclei (11)
    • 29.2: Binding Energy (6)
    • 29.3: Radioactivity (11)
    • 29.4: The Decay Processes
    • 29.5: Natural Radioactivity
    • 29.6: Nuclear Reactions (11)
    • 29.7: Medical Applications of Radiation (6)

  • Chapter 30: Nuclear Energy and Elementary Particles
    • 30.1: Nuclear Fission (12)
    • 30.2: Nuclear Fusion (3)
    • 30.3: Elementary Particles and the Fundamental Forces
    • 30.4: Positrons and Other Antiparticles
    • 30.5: Classification of Particles
    • 30.6: Conservation Laws (5)
    • 30.7: The Eightfold Way
    • 30.8: Quarks and Color (3)
    • 30.9: Electroweak Theory and the Standard Model
    • 30.10: The Cosmic Connection
    • 30.11: Unanswered Questions in Cosmology
    • 30.12: Problems and Perspectives


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Group Quantity Questions
Chapter 1: Units, Trigonometry, and Vectors
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Chapter 2: Motion in One Dimension
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Chapter 3: Motion in Two Dimensions
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Chapter 4: Newton's Laws of Motion
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Chapter 5: Energy
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Chapter 6: Momentum, Impulse, and Collisions
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Chapter 7: Rotational Motion and Gravitation
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Chapter 8: Rotational Equilibrium and Dynamics
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Chapter 9: Fluids and Solids
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Chapter 10: Thermal Physics
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Chapter 11: Energy in Thermal Processes
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Chapter 12: The Laws of Thermodynamics
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Chapter 13: Vibrations and Waves
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Chapter 14: Sound
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Chapter 15: Electric Forces and Fields
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Chapter 16: Electrical Energy and Capacitance
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Chapter 17: Current and Resistance
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Chapter 18: Direct-Current Circuits
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Chapter 19: Magnetism
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Chapter 20: Induced Voltages and Inductance
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Chapter 21: Alternating-Current Circuits and Electromagnetic Waves
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Chapter 22: Reflection and Refraction of Light
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Chapter 23: Mirrors and Lenses
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Chapter 24: Wave Optics
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Chapter 25: Optical Instruments
25.WA 61 001 002.Tutorial 003 004 005 006 007 008 009 010 011 012 013 014 015.Tutorial 016 017 018 019 020 021 022 023 024 025 026 027 028.Tutorial 029 030 031 032 033 034 035 036 037 038 039 040 041.Tutorial 042 043 044 045 046 047 048 049 050 051 052 053 054 055 056 057 058.Tutorial 059 060 061
Chapter 26: Relativity
26.WA 28 001 002.Tutorial 003 004 005 006 007.Tutorial 008 009 010.Tutorial 011 012 013 014 015 016.Tutorial 017 018 019 020 021 022 023 024 025 026 027 028
Chapter 27: Quantum Physics
27.WA 37 001 002 003 004 005 006 007 008 009 010.Tutorial 011 012 013 014 015 016 017 018 019 020.Tutorial 021 022 023 024.Tutorial 025 026 027 028 029 030.Tutorial 031 032.Tutorial 033 034 035 036 037
Chapter 28: Atomic Physics
28.WA 21 001 002 003 004 005.Tutorial 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021.Tutorial
Chapter 29: Nuclear Physics
29.WA 45 001 002 003 004 005 006 007 008 009 010.Tutorial 011 012.Tutorial 013 014 015 016 017 018 019.Tutorial 020 021 022 023 024 025 026 027 028 029.Tutorial 030 031 032 033 034 035 036 037 038 039 040 041 042 043 044 045
Chapter 30: Nuclear Energy and Elementary Particles
30.WA 23 001 002.Tutorial 003 004 005 006 007 008 009 010 011 012 013 014.Tutorial 015 016 017.Tutorial 018 019.Tutorial 020 021 022 023.Tutorial
Total 1614