WebAssign Companion to Young & Freedman - University Physics 13/e 13th edition

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  • Chapter 1: Introduction and Vectors
    • 1.1: Physics: An Introduction
    • 1.2: Problem Solving in Physics
    • 1.3: Units
    • 1.4: Unit Conversion
    • 1.5: Significant Digits
    • 1.6: Estimation
    • 1.7: Vectors
    • 1.8: Vector Components
    • 1.9: Unit Vectors
    • 1.10: Vector Dot Products and Cross Products
    • 1: Problems (91)

  • Chapter 2: One Dimensional Kinematics
    • 2.1: Displacement and Average Velocity
    • 2.2: Instantaneous Velocity
    • 2.3: Acceleration
    • 2.4: Constant Acceleration Motion
    • 2.5: Free Fall Motion
    • 2.6: Deriving Kinematics Equations Using Calculus
    • 2: Problems (65)

  • Chapter 3: Two and Three Dimensional Kinematics
    • 3.1: Using Vectors for Position and Velocity
    • 3.2: Acceleration as a Vector
    • 3.3: Projectile Motion
    • 3.4: Circular Motion
    • 3.5: Relative Motion
    • 3: Problems (66)

  • Chapter 4: Newton's Laws
    • 4.1: Force
    • 4.2: Newton's First Law
    • 4.3: Newton's Second Law
    • 4.4: Mass, Gravitational Force, Weight
    • 4.5: Newton's Third Law
    • 4.6: Using Free-Body Diagrams in Problem Solving
    • 4: Problems (57)

  • Chapter 5: Applications of Newton's Laws
    • 5.1: Applying Newton's First Law
    • 5.2: Applying Newton's Second Law
    • 5.3: Friction
    • 5.4: Uniform Circular Motion and Newton's Laws
    • 5.5: The Four Fundamental Interactions
    • 5: Problems (67)

  • Chapter 6: Energy and Work
    • 6.1: Work
    • 6.2: Kinetic Energy and Its Relation to Work
    • 6.3: Work by a Non-Constant Force
    • 6.4: Power
    • 6: Problems (40)

  • Chapter 7: Potential Energy; Conservation of Energy
    • 7.1: Gravitational Potential Energy (Near Earth's Surface)
    • 7.2: Potential Energy of Springs
    • 7.3: Conservative and Nonconservative Forces
    • 7.4: Potential Energy and Its Relation to Force
    • 7.5: Potential Energy Diagrams
    • 7: Problems (95)

  • Chapter 8: Momentum and Collisions
    • 8.1: Impulse and Momentum
    • 8.2: Momentum Conservation
    • 8.3: Collisions and Momentum Conservation
    • 8.4: Elastic Collisions
    • 8.5: Center of Mass
    • 8.6: Rockets
    • 8: Problems (86)

  • Chapter 9: Rigid Body Rotation
    • 9.1: Angular Position, Angular Velocity, and Angular Acceleration
    • 9.2: Constant Angular Acceleration Motion
    • 9.3: Comparing Angular and Translational Quantitities
    • 9.4: Rotational Kinetic Energy
    • 9.5: The Parallel-Axis Theorem
    • 9.6: Calculating Moment of Inertia
    • 9: Problems (45)

  • Chapter 10: Rotational Dynamics
    • 10.1: Torque
    • 10.2: Relating Torque and Angular Acceleration
    • 10.3: Combined Translational and Rotational Motion
    • 10.4: Applying Work and Power to Rotational Motion
    • 10.5: Angular Momentum
    • 10.6: Angular Momentum Conservation
    • 10.7: Gyroscopic Motion
    • 10: Problems (67)

  • Chapter 11: Static Equilibrium and Elastic Matter
    • 11.1: Static Equilibrium Conditions
    • 11.2: Center of Gravity
    • 11.3: Problem Solving: Equilibrium of Rigid Bodies
    • 11.4: Elastic Materials
    • 11.5: Elastic Behavior vs. Plastic Behavior of Solids
    • 11: Problems (45)

  • Chapter 12: Fluids
    • 12.1: Density of Fluids
    • 12.2: Pressure
    • 12.3: The Buoyant Force
    • 12.4: Flow of Fluids
    • 12.5: The Bernoulli Equation
    • 12.6: Viscosity of Fluids; Turbulence in Fluid Flow
    • 12: Problems (66)

  • Chapter 13: Gravitation
    • 13.1: Newton's Law of Universal Gravitation
    • 13.2: Weight: Gravitational Force
    • 13.3: Gravitational Potential Energy (General)
    • 13.4: Satellite Motion
    • 13.5: Kepler's Laws of Planetary Motion
    • 13.6: Gravitational Properities of Spherically Symmetric Mass Distributions
    • 13.7: Apparent Weight
    • 13.8: Black Holes and their Properties
    • 13: Problems (42)

  • Chapter 14: Oscillations
    • 14.1: Amplitude, Period, and Frequency of Oscillations
    • 14.2: Simple Harmonic Motion
    • 14.3: Energy in Simple Harmonic Motionn
    • 14.4: Simple Harmonic Motion: Applications
    • 14.5: Simple Pendulums
    • 14.6: Physical Pendulums
    • 14.7: Damped Oscillation
    • 14.8: Resonance and Forced Oscillation
    • 14: Problems (40)

  • Chapter 15: Waves
    • 15.1: Transverse and Longitudinal Waves
    • 15.2: Periodicity in Waves
    • 15.3: Wave Functions and the Wave Equation
    • 15.4: Wave Speed
    • 15.5: Energy in Waves
    • 15.6: Superposition and Interference of Waves
    • 15.7: Standing Waves
    • 15.8: Normal Modes
    • 15: Problems (65)

  • Chapter 16: Sound
    • 16.1: Sound Waves
    • 16.2: Speed of Sound
    • 16.3: Intensity of Sound
    • 16.4: Standing Waves and Normal Modes: Sound
    • 16.5: Sound and Resonance
    • 16.6: Sound Wave Interference
    • 16.7: Beats
    • 16.8: The Doppler Effect
    • 16.9: Sonic Booms and Shock Waves
    • 16: Problems (59)

  • Chapter 17: Heat and Temperature
    • 17.1: Temperature
    • 17.2: Temperature Scales
    • 17.3: Absolute Temperature Scale
    • 17.4: Thermal Expansion of Matter
    • 17.5: Heat
    • 17.6: Phase Changes and Latent Heat
    • 17.7: Heat Transfer Mechanisms
    • 17: Problems (77)

  • Chapter 18: Thermal Physics of Matter
    • 18.1: Equations of State and Ideal Gas Law
    • 18.2: Molecules, Molecular Forces, Moles
    • 18.3: Ideal Gas: Molecular Model
    • 18.4: Heat Capacity and Specific Heat
    • 18.5: Molecular Speed Distribution
    • 18.6: Phases of Matter and Phase Diagrams
    • 18: Problems (44)

  • Chapter 19: The First Law of Thermodynamics
    • 19.1: Thermodynamic Systems and Processes
    • 19.2: Work in Thermodynamic Systems
    • 19.3: Thermodynamic Paths and Diagrams
    • 19.4: Internal Energy
    • 19.5: Types of Thermodynamic Processes
    • 19.6: Ideal Gasses and Internal Energy
    • 19.7: Ideal Gasses and Heat Capacity
    • 19.8: Ideal Gasses and Adiabatic Processes
    • 19: Problems (22)

  • Chapter 20: The Second Law of Thermodynamics
    • 20.1: Reversible and Irreversible Processes
    • 20.2: Heat Engines
    • 20.3: Thermodynamics of the Internal Combustion Engine
    • 20.4: Thermodynamics of the Refrigerator
    • 20.5: The Second Law of Thermodynamics; Different Ways to State It
    • 20.6: Thermodynamics of the Carnot Cycle
    • 20.7: Entropy
    • 20.8: Statistical Mechanics
    • 20: Problems (33)

  • Chapter 21: Electric Charge, Electric Force, and Electric Field
    • 21.1: Electric Charge
    • 21.2: Conductors and Insulators; Charging by Induction
    • 21.3: Electric Force and Coulomb's Law
    • 21.4: Electric Field
    • 21.5: Calculating Electric Field
    • 21.6: Electric Field Lines
    • 21.7: The Electric Dipole
    • 21: Problems (73)

  • Chapter 22: Gauss's Law
    • 22.1: Electric Flux
    • 22.2: Electric Flux Calculations
    • 22.3: Gauss's Law & Electric Flux
    • 22.4: Applying Gauss's Law to Distributions of Charge
    • 22.5: Applying Gauss's Law to Conductors in Electrostatic Equilibrium
    • 22: Problems (35)

  • Chapter 23: Electric Potential
    • 23.1: Work and Electric Potential Energy
    • 23.2: Electric Potential: Relation to Charge and to Field
    • 23.3: Calculating Electric Potential from Charge Distributions or Fields
    • 23.4: Equipotential Surfaces and Charged Conductors
    • 23.5: Calculating Electric Field from Electric Potential
    • 23: Problems (50)

  • Chapter 24: Capacitors and Dielectric Materials
    • 24.1: Capacitance
    • 24.2: Series and Parallel Capacitors
    • 24.3: Energy in Capacitors
    • 24.4: Dielectrics in Capacitors
    • 24.5: Dielectrics: a Molecular Model
    • 24.6: Applying Gauss's Law in Dielectrics
    • 24: Problems (39)

  • Chapter 25: Current and Resistance
    • 25.1: Electric Current
    • 25.2: Resistivity
    • 25.3: Resistance
    • 25.4: EMF
    • 25.5: Power and Energy in Circuits
    • 25.6: Microscopic Model of Current
    • 25: Problems (51)

  • Chapter 26: DC Circuits
    • 26.1: Series and Parallel Resistors
    • 26.2: Kirchoff's Laws: Node (Current) Rule and Loop (Voltage) Rule
    • 26.3: Meters
    • 26.4: RC Circuits
    • 26.5: Application: Household Electricity and Power
    • 26: Problems (55)

  • Chapter 27: Magnetic Forces and Magnetic Fields
    • 27.1: Introduction to Magnetism
    • 27.2: Magnetic Fields and Forces
    • 27.3: Magnetic Flux
    • 27.4: Charge Particles Moving in Magnetic Fields
    • 27.5: Applications: Electric and Magnetic Forces on Moving Charged Particles
    • 27.6: Magnetic Forces on Current-Carrying Conductors
    • 27.7: Magnetic Torque on Current Loops
    • 27.8: Application: Motors
    • 27.9: The Hall Effect
    • 27: Problems (52)

  • Chapter 28: Magnetic Fields and their Sources
    • 28.1: Magnetic Field Due to a Moving Point Charge
    • 28.2: The Biot-Savart Law
    • 28.3: Magnetic Field Due to a Long Straight Wire
    • 28.4: Magnetic Forces Between Two Parallel Current-Carrying Wires
    • 28.5: Magnetic Field of a Current Loop
    • 28.6: Ampere's Law
    • 28.7: Ampere's Law: Applications
    • 28.8: Paramagnetism, Diamagnetism, and Ferromagnetism
    • 28: Problems (44)

  • Chapter 29: Electromagnetic Induction and Faraday's Law
    • 29.1: Induction
    • 29.2: Faraday's Law
    • 29.3: Lenz's Rule
    • 29.4: Motional EMF
    • 29.5: Induced Electric Fields
    • 29.6: Application: Eddy Currents
    • 29.7: Correcting Ampere's Law; Maxwell's Equations
    • 29.8: Superconductivity and Superconductors
    • 29: Problems (51)

  • Chapter 30: Inductance and Inductor Circuits
    • 30.1: Mutual Inductance
    • 30.2: Self Inductance
    • 30.3: Energy Stored in Magnetic Fields
    • 30.4: RL Circuits
    • 30.5: LC Circuits and Current Oscillation
    • 30.6: RLC Circuits and Damped Oscillation
    • 30: Problems (41)

  • Chapter 31: AC Circuits
    • 31.1: Phasors
    • 31.2: AC Circuits and Reactance
    • 31.3: RLC Circuits with AC Voltage Sources
    • 31.4: Power in AC Circuits
    • 31.5: Resonance in AC Circuits
    • 31.6: Transformers
    • 31: Problems (43)

  • Chapter 32: Electromagnetic Radiation
    • 32.1: Maxwell's Equations
    • 32.2: Electromagnetic Plane Waves
    • 32.3: Sinusoidal Waves
    • 32.4: Electromagnetic Waves Carry Energy and Momentum
    • 32.5: Reflection and Electromagnetic Standing Waves
    • 32: Problems (38)

  • Chapter 33: Light
    • 33.1: Modeling Light as Waves and Rays
    • 33.2: Reflection and Refraction of Light Rays
    • 33.3: Total Internal Reflection
    • 33.4: Dispersion of Light
    • 33.5: Polarization of Light
    • 33.6: Scattering
    • 33.7: Huygens's Principle and Wave Fronts
    • 33: Problems (51)

  • Chapter 34: Geometric Optics
    • 34.1: Flat Mirrors; Reflection and Refraction on Planes
    • 34.2: Spherical Mirrors
    • 34.3: Spherical Refraction
    • 34.4: Thin Lenses
    • 34.5: Cameras
    • 34.6: Eyes
    • 34.7: Magnifying Lenses
    • 34.8: Optics of Microscopes and Telescopes
    • 34: Problems (79)

  • Chapter 35: Waves Optics: Interference
    • 35.1: Interference of Light
    • 35.2: The Double-Slit Experiment
    • 35.3: Intensity in the Double-Slit Experiment
    • 35.4: Thin Film Interference
    • 35.5: Application: Michelson Interferometer
    • 35: Problemns (54)

  • Chapter 36: Wave Optics: Diffraction
    • 36.1: Types of Diffraction
    • 36.2: Single-Slit Diffraction
    • 36.3: Single-Slit Diffraction Intensity
    • 36.4: Multiple-Slit Diffraction
    • 36.5: Diffraction Gratings
    • 36.6: X-Ray Diffraction
    • 36.7: Resolution and the Rayleigh Criterion
    • 36.8: Holography and Holograms
    • 36: Problems (48)

  • Chapter 37: Relativity
    • 37.1: Invariance
    • 37.2: Simulteneity
    • 37.3: Time Dilation
    • 37.4: Length Contraction
    • 37.5: Lorentz Transformations
    • 37.6: Relativstic Doppler Effect
    • 37.7: Momentum and Relativity
    • 37.8: Energy and Relativity
    • 37.9: Relating Newtonian Physics to Relativity; General Relativity
    • 37: Problems (35)

  • Chapter 38: Photons
    • 38.1: The Photoelectric Effect and Photons
    • 38.2: X-Ray Production and Bremsstrahlung
    • 38.3: The Compton Effect and Photon Scattering
    • 38.4: Wave Particle Duality
    • 38: Problems (23)

  • Chapter 39: Quantum Physics of Matter Waves
    • 39.1: DeBroglie Wavelength and Electron Diffraction
    • 39.2: The Rutherford Experiment; Atomic Spectra
    • 39.3: The Bohr Model of the Hydrogen Atom
    • 39.4: Application: Lasers
    • 39.5: Blackbody Radiation
    • 39.6: The Heisenberg Uncertainty Principle
    • 39: Problems (42)

  • Chapter 40: Quantum Mechanics
    • 40.1: The Schrodinger Equation
    • 40.2: The Quantum Particle in a Box
    • 40.3: The Quantum Particle in a Finite Potential Well
    • 40.4: Quantum Tunneling through a Barrier
    • 40.5: The Quantum Simple Harmonic Osciallator
    • 40: Problems (38)

  • Chapter 41: Atomic Physics
    • 41.1: The Three-Dimensional Schrodinger Equation
    • 41.2: The Quantum Particle in a 3D Box
    • 41.3: Quantum Mechanics and the Hydrogen Atom
    • 41.4: The Zeeman Effect: Magnetic Fields and Spectral Lines
    • 41.5: Spin
    • 41.6: The Pauli Exclusion Principle
    • 41.7: Characteristic X-Ray Spectra
    • 41: Problems (23)

  • Chapter 42: Physics of Molecules and Solids
    • 42.1: Molecular Bonds
    • 42.2: Spectra of Molecules
    • 42.3: Crystal Structure
    • 42.4: Band Theory
    • 42.5: Electrons in Metals
    • 42.6: Semiconductors: Microscopic Model
    • 42.7: Semiconductor Devices
    • 42.8: Superconductivity and Energy Bands
    • 42: Problems (31)

  • Chapter 43: Nuclear Physics
    • 43.1: Nuclear Properties
    • 43.2: Nuclear Structure; Binding Energy
    • 43.3: Radioactive Decay
    • 43.4: Rate of Radioactive Decay
    • 43.5: Nuclear Radiation and the Human Body
    • 43.6: Nuclear Reactions
    • 43.7: Fission
    • 43.8: Fusion
    • 43: Problems (67)

  • Chapter 44: Particle Physics and Cosmology
    • 44.1: Brief History of Particle Physics
    • 44.2: Experiments in Particle Physics: Accelerators and Detectors
    • 44.3: Subatomic Particles and the Fundamental Interactions
    • 44.4: Quarks
    • 44.5: The Standard Model of Particle Physics
    • 44.6: The Big Bang and the Expansion of the Universe
    • 44.7: The Standard Model of Cosmology
    • 44: Problems (19)



In addition to questions direct from your required course text, WebAssign adopters of the 13th edition of University Physics by Young and Freedman now have access to this exclusive collection of questions.

Authored by experienced physics instructors with years of teaching the introductory physics sequence, the University Physics question collection by WebAssign includes over 1900 questions covering every concept in the calculus-based course, designed to work with any textbook (or no textbook at all).

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Tutorial - Question Contains a Tutorial


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Group Quantity Questions
Chapter 1: Introduction and Vectors
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Chapter 2: One Dimensional Kinematics
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Chapter 3: Two and Three Dimensional Kinematics
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Chapter 4: Newton's Laws
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Chapter 5: Applications of Newton's Laws
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Chapter 6: Energy and Work
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Chapter 7: Potential Energy; Conservation of Energy
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Chapter 8: Momentum and Collisions
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Chapter 9: Rigid Body Rotation
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Chapter 10: Rotational Dynamics
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Chapter 11: Static Equilibrium and Elastic Matter
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Chapter 12: Fluids
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Chapter 13: Gravitation
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Chapter 14: Oscillations
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Chapter 15: Waves
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Chapter 16: Sound
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Chapter 17: Heat and Temperature
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Chapter 18: Thermal Physics of Matter
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Chapter 19: The First Law of Thermodynamics
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Chapter 20: The Second Law of Thermodynamics
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Chapter 21: Electric Charge, Electric Force, and Electric Field
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Chapter 22: Gauss's Law
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Chapter 23: Electric Potential
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Chapter 24: Capacitors and Dielectric Materials
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Chapter 25: Current and Resistance
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Chapter 26: DC Circuits
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Chapter 27: Magnetic Forces and Magnetic Fields
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Chapter 28: Magnetic Fields and their Sources
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Chapter 29: Electromagnetic Induction and Faraday's Law
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Chapter 30: Inductance and Inductor Circuits
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Chapter 31: AC Circuits
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Chapter 32: Electromagnetic Radiation
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Chapter 33: Light
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Chapter 34: Geometric Optics
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Chapter 35: Waves Optics: Interference
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Chapter 36: Wave Optics: Diffraction
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Chapter 37: Relativity
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Chapter 38: Photons
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Chapter 39: Quantum Physics of Matter Waves
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Chapter 40: Quantum Mechanics
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Chapter 41: Atomic Physics
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Chapter 42: Physics of 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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