# WebAssign Companion to Serway: Physics for Scientists and Engineers 10/e 10th edition

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• Chapter 1: Physics and Measurement
• 1.1: Standards of Length, Mass, and Time (1)
• 1.2: Modeling and Alternative Representations
• 1.3: Dimensional Analysis (2)
• 1.4: Conversion of Units (9)
• 1.5: Estimates and Order-of-Magnitude Calculations (6)
• 1.6: Significant Figures (10)
• 1: Challenge Problems

• Chapter 2: Motion in One Dimension
• 2.1: Position, Velocity, and Speed of a Particle (8)
• 2.2: Instantaneous Velocity and Speed (8)
• 2.3: Analysis Model: Particle Under Constant Velocity (4)
• 2.4: The Analysis Model Approach to Problem Solving
• 2.5: Acceleration (7)
• 2.6: Motion Diagrams (2)
• 2.7: Analysis Model: Particle Under Constant Acceleration (11)
• 2.8: Freely Falling Objects (13)
• 2.9: Kinematic Equations Derived from Calculus (6)
• 2: Challenge Problems

• Chapter 3: Vectors
• 3.1: Coordinate Systems (6)
• 3.2: Vector and Scalar Quantities
• 3.3: Basic Vector Arithmetic (2)
• 3.4: Components of a Vector and Unit Vectors (43)
• 3: Challenge Problems

• Chapter 4: Motion in Two Dimensions
• 4.1: The Position, Velocity, and Acceleration Vectors (6)
• 4.2: Two-Dimensional Motion with Constant Acceleration (8)
• 4.3: Projectile Motion (23)
• 4.4: Analysis Model: Particle in Uniform Circular Motion (6)
• 4.5: Tangential and Radial Acceleration (3)
• 4.6: Relative Velocity and Relative Acceleration (11)
• 4: Challenge Problems

• Chapter 5: The Laws of Motion
• 5.1: The Concept of Force
• 5.2: Newton's First Law and Inertial Frames (2)
• 5.3: Mass (1)
• 5.4: Newton's Second Law (10)
• 5.5: The Gravitational Force and Weight (4)
• 5.6: Newton's Third Law (4)
• 5.7: Analysis Models Using Newton's Second Law (42)
• 5.8: Forces of Friction (26)
• 5: Challenge Problems

• Chapter 6: Circular Motion and Other Applications of Newton's Laws
• 6.1: Extending the Particle in Uniform Circular Motion Model (17)
• 6.2: Nonuniform Circular Motion (13)
• 6.3: Motion in Accelerated Frames
• 6.4: Motion in the Presence of Resistive Forces (11)
• 6: Challenge Problems

• Chapter 7: Energy of a System
• 7.1: Systems and Environments
• 7.2: Work Done by a Constant Force (5)
• 7.3: The Scalar Product of Two Vectors (6)
• 7.4: Work Done by a Varying Force (7)
• 7.5: Kinetic Energy and the Work–Kinetic Energy Theorem (15)
• 7.6: Potential Energy of a System (15)
• 7.7: Conservative and Nonconservative Forces (11)
• 7.8: Relationship Between Conservative Forces and Potential Energy (9)
• 7.9: Energy Diagrams and Equilibrium of a System (1)
• 7: Challenge Problems

• Chapter 8: Conservation of Energy
• 8.1: Analysis Model: Nonisolated System (Energy)
• 8.2: Analysis Model: Isolated System (Energy) (15)
• 8.3: Situations Involving Kinetic Friction (8)
• 8.4: Changes in Mechanical Energy for Nonconservative Forces (15)
• 8.5: Power (8)
• 8: Challenge Problems

• Chapter 9: Linear Momentum and Collisions
• 9.1: Linear Momentum (4)
• 9.2: Analysis Model: Isolated System (Momentum) (7)
• 9.3: Analysis Model: Nonisolated System (Momentum) (13)
• 9.4: Collisions in One Dimension (21)
• 9.5: Collisions in Two Dimensions (11)
• 9.6: The Center of Mass (8)
• 9.7: Systems of Many Particles (8)
• 9.8: Deformable Systems
• 9.9: Rocket Propulsion (6)
• 9: Challenge Problems

• Chapter 10: Rotation of a Rigid Object About a Fixed Axis
• 10.1: Angular Position, Velocity, and Acceleration (11)
• 10.2: Analysis Model: Rigid Object Under Constant Angular Acceleration (5)
• 10.3: Angular and Translational Quantities (15)
• 10.4: Torque (6)
• 10.5: Analysis Model: Rigid Object Under a Net Torque (15)
• 10.6: Calculation of Moments of Inertia (4)
• 10.7: Rotational Kinetic Energy (6)
• 10.8: Energy Considerations in Rotational Motion (4)
• 10.9: Rolling Motion of a Rigid Object (5)
• 10: Challenge Problems

• Chapter 11: Angular Momentum
• 11.1: The Vector Product and Torque (10)
• 11.2: Analysis Model: Nonisolated System (Angular Momentum) (8)
• 11.3: Angular Momentum of a Rotating Rigid Object (11)
• 11.4: Analysis Model: Isolated System (Angular Momentum) (12)
• 11.5: The Motion of Gyroscopes and Tops (1)
• 11: Challenge Problems

• Chapter 12: Static Equilibrium and Elasticity
• 12.1: Analysis Model: Rigid Object in Equilibrium (5)
• 12.2: More on the Center of Gravity (11)
• 12.3: Examples of Rigid Objects in Static Equilibrium (28)
• 12.4: Elastic Properties of Solids (24)
• 12: Challenge Problems

• Chapter 13: Universal Gravitation
• 13.1: Newton's Law of Universal Gravitation (7)
• 13.2: Free-Fall Acceleration and the Gravitational Force (7)
• 13.3: Analysis Model: Particle in a Field (Gravitational) (5)
• 13.4: Kepler's Laws and the Motion of Planets (15)
• 13.5: Gravitational Potential Energy (2)
• 13.6: Energy Considerations in Planetary and Satellite Motion (6)
• 13: Challenge Problems

• Chapter 14: Fluid Mechanics
• 14.1: Pressure (3)
• 14.2: Variation of Pressure with Depth (16)
• 14.3: Pressure Measurements (7)
• 14.4: Buoyant Forces and Archimedes's Principle (11)
• 14.5: Fluid Dynamics (11)
• 14.6: Bernoulli's Equation (16)
• 14.7: Flow of Viscous Fluids in Pipes (6)
• 14.8: Other Applications of Fluid Dynamics
• 14: Challenge Problems

• Chapter 15: Oscillatory Motion
• 15.1: Motion of an Object Attached to a Spring (4)
• 15.2: Analysis Model: Particle in Simple Harmonic Motion (19)
• 15.3: Energy of the Simple Harmonic Oscillator (12)
• 15.4: Comparing Simple Harmonic Motion with Uniform Circular Motion (6)
• 15.5: The Pendulum (8)
• 15.6: Damped Oscillations (1)
• 15.7: Forced Oscillations (2)
• 15: Challenge Problems

• Chapter 16: Wave Motion
• 16.1: Propagation of a Disturbance (4)
• 16.2: Analysis Model: Traveling Wave (15)
• 16.3: The Speed of Waves on Strings (9)
• 16.4: Rate of Energy Transfer by Sinusoidal Waves on Strings (6)
• 16.5: The Linear Wave Equation
• 16.6: Sound Waves (3)
• 16.7: Speed of Sound Waves (8)
• 16.8: Intensity of Sound Waves (19)
• 16.9: The Doppler Effect (13)
• 16: Challenge Problems

• Chapter 17: Superposition and Sound Waves
• 17.1: Analysis Model: Waves in Interference (10)
• 17.2: Standing Waves (6)
• 17.3: Boundary Effects: Reflection and Transmission (2)
• 17.4: Analysis Model: Waves Under Boundary Conditions (6)
• 17.5: Resonance
• 17.6: Standing Waves in Air Columns (10)
• 17.7: Beats: Interference in Time (4)
• 17.8: Nonsinusoidal Waveforms
• 17: Challenge Problems

• Chapter 18: Temperature
• 18.1: Temperature and the Zeroth Law of Thermodynamics
• 18.2: Thermometers and the Celsius Temperature Scale
• 18.3: The Constant-Volume Gas Thermometer and the Absolute Temperature Scale (7)
• 18.4: Thermal Expansion of Solids and Liquids (15)
• 18.5: Macroscopic Description of an Ideal Gas (18)
• 18: Challenge Problems

• Chapter 19: The First Law of Thermodynamics
• 19.1: Heat and Internal Energy (2)
• 19.2: Specific Heat and Calorimetry (15)
• 19.3: Latent Heat (16)
• 19.4: Work in Thermodynamic Processes (5)
• 19.5: The First Law of Thermodynamics (8)
• 19.6: Energy Transfer Mechanisms in Thermal Processes (17)
• 19: Challenge Problems

• Chapter 20: The Kinetic Theory of Gases
• 20.1: Molecular Model of an Ideal Gas (11)
• 20.2: Molar Specific Heat of an Ideal Gas (6)
• 20.3: The Equipartition of Energy (5)
• 20.4: Adiabatic Processes for an Ideal Gas (6)
• 20.5: Distribution of Molecular Speeds (4)
• 20: Challenge Problems

• Chapter 21: Heat Engines, Entropy, and the Second Law of Thermodynamics
• 21.1: Heat Engines and the Second Law of Thermodynamics (19)
• 21.2: Heat Pumps and Refrigerators (1)
• 21.3: Reversible and Irreversible Processes
• 21.4: The Carnot Engine (10)
• 21.5: Gasoline and Diesel Engines (2)
• 21.6: Entropy (1)
• 21.7: Entropy in Thermodynamic Systems (10)
• 21.8: Entropy and the Second Law (1)
• 21: Challenge Problems

• Chapter 22: Electric Fields
• 22.1: Properties of Electric Charges
• 22.2: Charging Objects by Induction
• 22.3: Coulomb's Law (14)
• 22.4: Analysis Model: Particle in a Field (Electric) (25)
• 22.5: Electric Field Lines (3)
• 22.6: Motion of a Charged Particle in a Uniform Electric Field (7)
• 22: Challenge Problems

• Chapter 23: Continuous Charge Distributions and Gauss's Law
• 23.1: Electric Field of a Continuous Charge Distribution (6)
• 23.2: Electric Flux (9)
• 23.3: Gauss's Law (15)
• 23.4: Application of Gauss's Law to Various Charge Distributions (7)
• 23: Challenge Problems

• Chapter 24: Electric Potential
• 24.1: Electric Potential and Potential Difference (10)
• 24.2: Potential Difference in a Uniform Electric Field (11)
• 24.3: Electric Potential and Potential Energy Due to Point Charges (15)
• 24.4: Obtaining the Value of the Electric Field from the Electric Potential (4)
• 24.5: Electric Potential Due to Continuous Charge Distributions (6)
• 24.6: Conductors in Electrostatic Equilibrium (10)
• 24: Challenge Problems

• Chapter 25: Capacitance and Dielectrics
• 25.1: Definition of Capacitance (3)
• 25.2: Calculating Capacitance (10)
• 25.3: Combinations of Capacitors (9)
• 25.4: Energy Stored in a Charged Capacitor (9)
• 25.5: Capacitors with Dielectrics (10)
• 25.6: Electric Dipole in an Electric Field
• 25.7: An Atomic Description of Dielectrics
• 25: Challenge Problems

• Chapter 26: Current and Resistance
• 26.1: Electric Current (11)
• 26.2: Resistance (11)
• 26.3: A Model for Electrical Conduction
• 26.4: Resistance and Temperature (3)
• 26.5: Superconductors
• 26.6: Electrical Power (19)
• 26: Challenge Problems

• Chapter 27: Direct-Current Circuits
• 27.1: Electromotive Force (7)
• 27.2: Resistors in Series and Parallel (13)
• 27.3: Kirchhoff's Rules (11)
• 27.4: RC Circuits (12)
• 27.5: Household Wiring and Electrical Safety (3)
• 27: Challenge Problems

• Chapter 28: Magnetic Fields
• 28.1: Analysis Model: Particle in a Field (Magnetic) (9)
• 28.2: Motion of a Charged Particle in a Uniform Magnetic Field (3)
• 28.3: Applications Involving Charged Particles Moving in a Magnetic Field (7)
• 28.4: Magnetic Force Acting on a Current-Carrying Conductor (12)
• 28.5: Torque on a Current Loop in a Uniform Magnetic Field (14)
• 28.6: The Hall Effect (7)
• 28: Challenge Problems

• Chapter 29: Sources of the Magnetic Field
• 29.1: The Biot–Savart Law (16)
• 29.2: The Magnetic Force Between Two Parallel Conductors (10)
• 29.3: Ampère's Law (12)
• 29.4: The Magnetic Field of a Solenoid (6)
• 29.5: Gauss's Law in Magnetism (6)
• 29.6: Magnetism in Matter
• 29: Challenge Problems

• 30.1: Faraday's Law of Induction (10)
• 30.2: Motional emf (4)
• 30.3: Lenz's Law (10)
• 30.4: The General Form of Faraday's Law (6)
• 30.5: Generators and Motors (8)
• 30.6: Eddy Currents
• 30: Challenge Problems

• Chapter 31: Inductance
• 31.1: Self-Induction and Inductance (8)
• 31.2: RL Circuits (11)
• 31.3: Energy in a Magnetic Field (6)
• 31.4: Mutual Inductance (5)
• 31.5: Oscillations in an LC Circuit (6)
• 31.6: The RLC Circuit (4)
• 31: Challenge Problems

• Chapter 32: Alternating-Current Circuits
• 32.1: AC Sources
• 32.2: Resistors in an AC Circuit (9)
• 32.3: Inductors in an AC Circuit (6)
• 32.4: Capacitors in an AC Circuit (5)
• 32.5: The RLC Series Circuit (7)
• 32.6: Power in an AC Circuit (8)
• 32.7: Resonance in a Series RLC Circuit (4)
• 32.8: The Transformer and Power Transmission (3)
• 32: Challenge Problems

• Chapter 33: Electromagnetic Waves
• 33.1: Displacement Current and the General Form of Ampère's Law (7)
• 33.2: Maxwell's Equations and Hertz's Discoveries
• 33.3: Plane Electromagnetic Waves (10)
• 33.4: Energy Carried by Electromagnetic Waves (10)
• 33.5: Momentum and Radiation Pressure (5)
• 33.6: Production of Electromagnetic Waves by an Antenna (4)
• 33.7: The Spectrum of Electromagnetic Waves (6)
• 33: Challenge Problems

• Chapter 34: The Nature of Light and the Principles of Ray Optics
• 34.1: The Nature of Light
• 34.2: The Ray Approximation in Ray Optics
• 34.3: Analysis Model: Wave Under Reflection (9)
• 34.4: Analysis Model: Wave Under Refraction (10)
• 34.5: Huygens's Principle
• 34.6: Dispersion (6)
• 34.7: Total Internal Reflection (12)
• 34: Challenge Problems

• Chapter 35: Image Formation
• 35.1: Images Formed by Flat Mirrors
• 35.2: Images Formed by Spherical Mirrors (11)
• 35.3: Images Formed by Refraction
• 35.4: Images Formed by Thin Lenses (13)
• 35.5: Lens Aberrations
• 35.6: Optical Instruments (55)
• 35: Challenge Problems

• Chapter 36: Wave Optics
• 36.1: Young's Double-Slit Experiment
• 36.2: Analysis Model: Waves in Interference (16)
• 36.3: Intensity Distribution of the Double-Slit Interference Pattern (16)
• 36.4: Change of Phase Due to Reflection
• 36.5: Interference in Thin Films (16)
• 36.6: The Michelson Interferometer (6)
• 36: Challenge Problems

• Chapter 37: Diffraction Patterns and Polarization
• 37.1: Introduction to Diffraction Patterns
• 37.2: Diffraction Patterns from Narrow Slits (15)
• 37.3: Resolution of Single-Slit and Circular Apertures (11)
• 37.4: The Diffraction Grating (11)
• 37.5: Diffraction of X-Rays by Crystals (10)
• 37.6: Polarization of Light Waves (13)
• 37: Challenge Problems

• Chapter 38: Relativity
• 38.1: The Principle of Galilean Relativity (3)
• 38.2: The Michelson–Morley Experiment (1)
• 38.3: Einstein's Principle of Relativity
• 38.4: Consequences of the Special Theory of Relativity (16)
• 38.5: The Lorentz Transformation Equations
• 38.6: The Lorentz Velocity Transformation Equations (4)
• 38.7: Relativistic Linear Momentum (4)
• 38.8: Relativistic Energy (10)
• 38.9: The General Theory of Relativity
• 38: Challenge Problems

• Chapter 39: Introduction to Quantum Physics
• 39.1: Blackbody Radiation and Planck's Hypothesis (10)
• 39.2: The Photoelectric Effect (7)
• 39.3: The Compton Effect (9)
• 39.4: The Nature of Electromagnetic Waves
• 39.5: The Wave Properties of Particles (6)
• 39.6: A New Model: The Quantum Particle
• 39.7: The Double-Slit Experiment Revisited
• 39.8: The Uncertainty Principle (7)
• 39: Challenge Problems

• Chapter 40: Quantum Mechanics
• 40.1: The Wave Function (8)
• 40.2: Analysis Model: Quantum Particle Under Boundary Conditions (12)
• 40.3: The Schrödinger Equation (6)
• 40.4: A Particle in a Well of Finite Height (1)
• 40.5: Tunneling Through a Potential Energy Barrier (5)
• 40.6: Applications of Tunneling
• 40.7: The Simple Harmonic Oscillator (7)
• 40: Challenge Problems

• Chapter 41: Atomic Physics
• 41.1: Atomic Spectra of Gases (3)
• 41.2: Early Models of the Atom
• 41.3: Bohr's Model of the Hydrogen Atom (10)
• 41.4: The Quantum Model of the Hydrogen Atom
• 41.5: The Wave Functions for Hydrogen (7)
• 41.6: Physical Interpretation of the Quantum Numbers (7)
• 41.7: The Exclusion Principle and the Periodic Table (4)
• 41.8: More on Atomic Spectra: Visible and X-Ray (5)
• 41.9: Spontaneous and Stimulated Transitions (6)
• 41.10: Lasers
• 41: Challenge Problems

• Chapter 42: Molecules and Solids
• 42.1: Molecular Bonds (6)
• 42.2: Energy States and Spectra of Molecules (12)
• 42.3: Bonding in Solids (2)
• 42.4: Free-Electron Theory of Metals (7)
• 42.5: Band Theory of Solids
• 42.6: Electrical Conduction in Metals, Insulators, and Semiconductors (6)
• 42.7: Semiconductor Devices
• 42: Challenge Problems

• Chapter 43: Nuclear Physics
• 43.1: Some Properties of Nuclei (10)
• 43.2: Nuclear Binding Energy (6)
• 43.3: Nuclear Models
• 43.5: The Decay Processes (6)
• 43.7: Nuclear Reactions (6)
• 43.8: Nuclear Fission (5)
• 43.9: Nuclear Reactors (10)
• 43.10: Nuclear Fusion (9)
• 43.11: Biological Radiation Damage (6)
• 43.12: Uses of Radiation from the Nucleus (1)
• 43.13: Nuclear Magnetic Resonance and Magnetic Resonance Imaging (1)
• 43: Challenge Problems

• Chapter 44: Particle Physics and Cosmology
• 44.1: Field Particles for the Fundamental Forces in Nature
• 44.2: Positrons and Other Antiparticles (4)
• 44.3: Mesons and the Beginning of Particle Physics (4)
• 44.4: Classification of Particles (1)
• 44.5: Conservation Laws (6)
• 44.6: Strange Particles and Strangeness (3)
• 44.7: Finding Patterns in the Particles
• 44.8: Quarks (4)
• 44.9: Multicolored Quarks
• 44.10: The Standard Model
• 44.11: The Cosmic Connection (6)
• 44.12: Problems and Perspectives
• 44: Challenge Problems

In addition to questions direct from your required course text, WebAssign adopters of the 10th edition of Physics for Scientists and Engineers with Modern Physics by Serway and Jewett can also use our exclusive question collection.

Authored by expert physics instructors with years of experience teaching the introductory physics sequence, the University Physics Question Collection by WebAssign includes more than 2200 questions covering every concept in the calculus-based course, designed to work with any textbook (or no textbook at all).

WebAssign content for University Physics includes:
• A collection of more than 2,200 questions representing every concept covered in the calculus-based course
• Answer feedback for every question and question part, designed specifically to address student misconceptions
• Multi-part tutorials for key concepts that reinforce problem-solving skills and conceptual understanding
• Detailed stepped-out solutions for every question, available at the instructor's discretion

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Group Quantity Questions
Chapter 1: Physics and Measurement
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Chapter 2: Motion in One Dimension
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Chapter 3: Vectors
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Chapter 4: Motion in Two Dimensions
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Chapter 5: The Laws of Motion
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Chapter 6: Circular Motion and Other Applications of Newton's Laws
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Chapter 7: Energy of a System
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Chapter 8: Conservation of Energy
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Chapter 9: Linear Momentum and Collisions
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Chapter 10: Rotation of a Rigid Object About a Fixed Axis
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Chapter 11: Angular Momentum
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Chapter 12: Static Equilibrium and Elasticity
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Chapter 13: Universal Gravitation
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Chapter 14: Fluid Mechanics
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Chapter 15: Oscillatory Motion
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Chapter 16: Wave Motion
16.WA 77 001 002 003 004.Tutorial 005 006 007.Tutorial 008 009 010 011 012 013 014 015 016 017 018.Tutorial 019 020 021 022 023 024 025 026 027.Tutorial 028 029 030 031 032.Tutorial 033 034.Tutorial 035 036 037 038.Tutorial 039 040 041 042 043 044 045 046.Tutorial 047 048 049 050 051 052 053 054 055 056 057 058 059 060 061 062 063 064 065.Tutorial 066.Tutorial 067 068 069 070 071 072 073 074 075 076 077
Chapter 17: Superposition and Sound Waves
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Chapter 18: Temperature
18.WA 40 001 002 003 004.Tutorial 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021.Tutorial 022 023 024 025 026 027 028 029 030 031 032 033.Tutorial 034 035 036 037 038 039 040.Tutorial
Chapter 19: The First Law of Thermodynamics
19.WA 63 001 002 003 004 005 006 007 008 009.Tutorial 010 011 012 013 014 015 016 017 018 019 020 021 022 023 024 025 026 027 028 029 030.Tutorial 031 032 033 034 035 036 037 038 039 040 041 042 043 044 045 046.Tutorial 047 048 049 050 051 052.Tutorial 053 054 055.Tutorial 056 057 058 059 060 061.Tutorial 062 063
Chapter 20: The Kinetic Theory of Gases
20.WA 32 001 002 003 004 005 006 007 008 009 010 011 012 013.Tutorial 014 015 016 017 018 019 020 021.Tutorial 022 023 024 025 026 027.Tutorial 028 029 030 031 032
Chapter 21: Heat Engines, Entropy, and the Second Law of Thermodynamics
21.WA 44 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020.Tutorial 021.Tutorial 022 023 024 025 026 027 028.Tutorial 029 030 031 032 033 034 035 036.Tutorial 037 038 039 040 041 042 043.Tutorial 044
Chapter 22: Electric Fields
22.WA 49 001.Tutorial 002 003 004 005 006 007 008 009 010 011 012 013.Tutorial 014.Tutorial 015 016 017 018 019 020 021 022 023 024 025.Tutorial 026 027 028 029 030 031 032 033 034 035 036 037 038 039 040 041 042 043 044 045 046 047 048.Tutorial 049
Chapter 23: Continuous Charge Distributions and Gauss's Law
23.WA 37 001.Tutorial 002 003 004 005 006 007 008 009 010.Tutorial 011 012 013 014 015 016 017 018 019 020 021 022.Tutorial 023 024 025 026.Tutorial 027 028 029.Tutorial 030 031 032 033 034.Tutorial 035 036 037
Chapter 24: Electric Potential
24.WA 56 001 002 003.Tutorial 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019.Tutorial 020 021.Tutorial 022 023 024 025 026 027 028 029 030 031.Tutorial 032 033 034 035 036 037 038 039 040 041 042.Tutorial 043 044 045 046 047 048 049.Tutorial 050 051 052 053 054.Tutorial 055 056
Chapter 25: Capacitance and Dielectrics
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Chapter 26: Current and Resistance
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Chapter 27: Direct-Current Circuits
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Chapter 28: Magnetic Fields
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Chapter 29: Sources of the Magnetic Field
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30.WA 38 001 002.Tutorial 003 004 005 006.Tutorial 007 008 009 010 011 012 013 014.Tutorial 015 016 017 018 019 020 021 022.Tutorial 023.Tutorial 024 025 026 027.Tutorial 028 029 030 031 032 033 034 035.Tutorial 036 037 038
Chapter 31: Inductance
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Chapter 32: Alternating-Current Circuits
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Chapter 33: Electromagnetic Waves
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Chapter 34: The Nature of Light and the Principles of Ray Optics
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Chapter 35: Image Formation
35.WA 79 001.Tutorial 002 003 004 005 006 007 008 009 010 011 012.Tutorial 013 014 015 016 017 018 019 020 021 022 023 024 025 026.Tutorial 027 028 029 030 031 032 033 034 035 036 037 038 039.Tutorial 040 041 042 043 044 045 046 047 048 049 050 051 052.Tutorial 053 054 055 056 057 058 059 060 061 062 063 064 065.Tutorial 066 067 068 069 070 071 072 073 074 075 076 077 078 079
Chapter 36: Wave Optics
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Chapter 37: Diffraction Patterns and Polarization
37.WA 60 001.Tutorial 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016.Tutorial 017 018 019 020 021 022 023 024 025 026 027.Tutorial 028 029 030 031 032 033 034 035 036 037 038.Tutorial 039 040 041 042 043 044 045 046 047 048.Tutorial 049 050 051 052 053 054 055 056 057 058 059 060
Chapter 38: Relativity
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Chapter 39: Introduction to Quantum Physics
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Chapter 40: Quantum Mechanics
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Chapter 41: Atomic Physics
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Chapter 42: Molecules and Solids
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Chapter 43: Nuclear Physics
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Chapter 44: Particle Physics and Cosmology
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Total 2213