# WebAssign Companion to Wolfson - Essential University Physics 3/e 3rd edition

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• Chapter 1: Introduction
• 1.1: Areas of Physics
• 1.2: Units and Measurement (13)
• 1.3: Math Preliminaries (21)
• 1.4: Powers of Ten; Significant Figures; Estimates

• Chapter 2: One Dimensional Kinematics
• 2.1: Average Velocity (15)
• 2.2: Instantaneous Velocity (5)
• 2.3: Average and Instantaneous Acceleration (14)
• 2.4: Constant Acceleration Motion (12)
• 2.5: Acceleration of Gravity Near Earth's Surface (13)
• 2.6: Non-constant Acceleration

• Chapter 3: Two and Three Dimensional Kinematics
• 3.1: Vectors and Vector Operations (45)
• 3.2: Vector Velocity and Acceleration (8)
• 3.3: Relative Velocity (11)
• 3.4: Constant Acceleration Kinematics (6)
• 3.5: Motion of Projectiles (23)
• 3.6: Circular Motion (9)

• Chapter 4: Force and Dynamics
• 4.1: Dynamics and Changes in Motion
• 4.2: Newton's First Law; Newton's Second Law (17)
• 4.3: Types of Forces
• 4.4: Gravitational Force (6)
• 4.5: Problem Solving with Newton's Second Law
• 4.6: Newton's Third Law (16)

• Chapter 5: Applications of Newton's Laws
• 5.1: Applying Newton's Second Law (17)
• 5.2: Newton's Second Law with More than One Object (11)
• 5.3: Circular Motion and Centripetal Force (28)
• 5.4: Frictional Force (28)
• 5.5: Drag Force (6)

• Chapter 6: Work and Energy
• 6.1: Overview of Energy
• 6.2: Work (11)
• 6.3: Work due to Varying Forces (9)
• 6.4: Kinetic Energy (15)
• 6.5: Power (7)

• Chapter 7: Energy Conservation
• 7.1: Conservative Forces (7)
• 7.2: Potential Energy (11)
• 7.3: Mechanical Energy Conservation (20)
• 7.4: Nonconservative Forces; Internal Energy Change (4)
• 7.5: Total Energy Conservation (25)
• 7.6: Potential Energy Diagrams (8)

• Chapter 8: Gravity
• 8.1: Introduction to Gravity
• 8.2: Law of Universal Gravitation (7)
• 8.3: Orbits (15)
• 8.4: Gravitational Potential Energy (8)
• 8.5: Gravitational Field (13)

• Chapter 9: Multiparticle Systems
• 9.1: Center of Mass of Systems (12)
• 9.2: Momentum and Momentum Conservation (9)
• 9.3: Kinetic Energy of Multiparticle Systems
• 9.4: Impulse and Collisions (20)
• 9.5: Inelastic Collisions (12)
• 9.6: Elastic Collisions (14)

• Chapter 10: Rotation
• 10.1: Angular Velocity; Angular Acceleration (32)
• 10.2: Torque (10)
• 10.3: Moment of Inertia; Rotational Dynamics (19)
• 10.4: Rotational Kinetic Energy (9)
• 10.5: Rolling without Slipping (5)

• Chapter 11: Angular Momentum and Vector Rotational Quantities
• 11.1: Vector Angular Velocity and Acceleration
• 11.2: Cross Products; Vector Torque (9)
• 11.3: Angular Momentum (17)
• 11.4: Angular Momentum Conservation (14)
• 11.5: Gyroscopic Motion (1)

• Chapter 12: Static Equilibrium
• 12.1: Equilibrium Conditions (3)
• 12.2: Center of Gravity (11)
• 12.3: Static Equilibrium: Applications (22)
• 12.4: Stable and Unstable Equilibrium (1)

• Chapter 13: Oscillations
• 13.1: Amplitude, Period, and Frequency (5)
• 13.2: Simple Harmonic Oscillations (14)
• 13.3: Oscillators: Springs and Pendulums (8)
• 13.4: Relating Circular Motion and Oscillation (5)
• 13.5: Energy in Oscillation (13)
• 13.6: Damped Oscillation (1)
• 13.7: Driven Oscillators; Resonance (2)

• Chapter 14: Waves
• 14.1: Transverse and Longitudinal Waves (6)
• 14.2: Wave Equation and Wave Functions (9)
• 14.3: Transverse Waves on a String (16)
• 14.4: Sound (22)
• 14.5: Wave Interference (7)
• 14.6: Reflection and Refraction of Traveling Waves (2)
• 14.7: Standing Waves (25)
• 14.8: Doppler Effect; Shock Waves (15)

• Chapter 15: Fluids
• 15.1: Density; Pressure (4)
• 15.2: Pascal's Law (22)
• 15.3: Buoyancy (11)
• 15.4: Continuity; Flow Rate; Bernoulli Equation (11)
• 15.5: Fluid Dynamics: Applications (16)
• 15.6: Viscosity; Turbulence

• Chapter 16: Heat and Temperature
• 16.1: Temperature (7)
• 16.2: Heat Capacity (14)
• 16.3: Conduction, Convection, and Radiation (15)
• 16.4: Steady State Thermal Energy Balancing (2)

• Chapter 17: Thermal Properties of Matter
• 17.1: Kinetic Theory of Gases (31)
• 17.2: Phase Changes (19)
• 17.3: Thermal Expansion (14)

• Chapter 18: First Law of Thermodynamics
• 18.1: First Law of Thermodynamics: Introduction (6)
• 18.2: Processes and Cycles (21)
• 18.3: Ideal Gases and Specific Heat (4)

• Chapter 19: Second Law of Thermodynamics
• 19.1: Reversible and Irreversible Processes
• 19.2: Second Law: Carnot Cycle; Efficiency (9)
• 19.3: Second Law: Other Applications (11)
• 19.4: Entropy (11)

• Chapter 20: Electric Force and Electric Field
• 20.1: Charge (14)
• 20.2: Coulomb's Law and Electric Force (15)
• 20.3: Electric Field (9)
• 20.4: Electric Fields due to Charge Distributions (21)
• 20.5: Electric Fields and Matter (7)

• Chapter 21: Gauss's Law
• 21.1: Electric Field Lines (3)
• 21.2: Electric Flux (9)
• 21.3: Gauss's Law: Introduction (16)
• 21.4: Gauss's Law: Applications (6)
• 21.5: Symmetry and Fields due to Charge Distributions
• 21.6: Electric Fields and Conductors (8)

• Chapter 22: Electric Potential
• 22.1: Electric Potential Difference (20)
• 22.2: Potentials of Point Charges and Charge Distributions (21)
• 22.3: Equipotentials; Find Field from Potential (8)
• 22.4: Potential and Conductors

• Chapter 23: Capacitors
• 23.1: Electric Potential Energy and Work
• 23.2: Capacitors and Capacitance (18)
• 23.3: Capacitors: Applications (22)
• 23.4: Electric Energy Density

• Chapter 24: Current
• 24.1: Electric Current: Macro and Micro View (12)
• 24.2: Ohm's Law and Microscopic Models of Conduction
• 24.3: Resistance; Ohm's Law (Macro) (10)
• 24.4: Electric Power (18)
• 24.5: Electricity and the Human Body

• Chapter 25: DC Circuits
• 25.1: Electric Circuits: Introduction
• 25.2: Resistors in Series and Parallel (21)
• 25.3: Kirchhoff's Circuit Laws (12)
• 25.4: Voltmeters and Ammeters (2)
• 25.5: RC Circuits (13)

• Chapter 26: Magnetic Force and Field
• 26.1: Magnetism: Introduction
• 26.2: Magnetic Force on Moving Charges (11)
• 26.3: Motion of Charges in Magnetic Fields (8)
• 26.4: Magnetic Forces on Current-Carrying Wires (20)
• 26.5: Biot-Savart Law (27)
• 26.6: Magnetic Dipoles and Magnetic Torque (13)
• 26.7: Magnetic Materials
• 26.8: Ampère's Law (17)

• Chapter 27: Faraday's Law and Induction
• 27.1: Electromagnetic Induction and Induced Currents
• 27.2: Faraday's Law (12)
• 27.3: Motional emf; Lenz's Law (20)
• 27.4: Inductance and Inductors (22)
• 27.5: Energy in Inductors and Magnetic Fields (6)
• 27.6: Faraday's Law and Induced Electric Fields (5)

• Chapter 28: AC Circuits
• 28.1: Alternating Current; RMS Values (6)
• 28.2: Resistors, Capacitors, Inductors in AC Circuits (14)
• 28.3: LC Circuits (10)
• 28.4: RLC Circuits; Resonance (12)
• 28.5: Power and Power Factor in AC Circuits (6)
• 28.6: Transformers; DC Power Supplies (3)

• Chapter 29: Electromagnetic Waves
• 29.1: Review of Electromagnetic Laws
• 29.2: The Ampère-Maxwell Law (7)
• 29.3: Maxwell's Equations
• 29.4: Electromagnetic Waves and Maxwell's Equations (2)
• 29.5: Electromagnetic Waves and their Properties (22)
• 29.6: The Electromagnetic Spectrum
• 29.7: Sources of Electromagnetic Waves (1)
• 29.8: Energy and Momentum in EM Waves; Poynting Vector (14)

• Chapter 30: Geometric Optics: Reflection and Refraction
• 30.1: Reflection of Light Rays (9)
• 30.2: Refraction; Snell's Law (16)
• 30.3: Total Internal Reflection (11)
• 30.4: Dispersion (6)

• Chapter 31: Geometric Optics: Image Formation
• 31.1: Plane and Curved Mirrors (15)
• 31.2: Thin Lenses (9)
• 31.3: Refraction at Curved Surfaces
• 31.4: Optical Instruments (55)

• Chapter 32: Wave Optics
• 32.1: Interference
• 32.2: The Double-Slit Experiment (30)
• 32.3: Diffraction Gratings (22)
• 32.4: Thin Films; Interferometers (22)
• 32.5: Diffraction (15)
• 32.6: Resolution; Rayleigh Criterion (11)

• Chapter 33: Special Relativity
• 33.1: Relativity and the Speed of Light
• 33.2: The Michelson-Morley Experiment (2)
• 33.3: The Principle of Relativity
• 33.4: Time Dilation and Length Contraction (10)
• 33.5: Relativity of Simultaneity
• 33.6: Lorentz Transformations; Velocity Addition (4)
• 33.7: Relativistic Momentum and Energy (13)
• 33.8: Electromagnetism in Different Reference Frames
• 33.9: General Relativity: A Brief Discussion

• Chapter 34: Quantum Theory: Particles and Waves
• 34.1: Introduction to Quantum Theory
• 34.2: Blackbody Radiation; Quantized Energy (7)
• 34.3: Photons; Photoelectric Effect; Compton Effect (19)
• 34.4: Bohr Model of the Atom (9)
• 34.5: DeBroglie Wavelength (9)
• 34.6: Heisenberg Uncertainty Principle (7)
• 34.7: Complementarity; Correspondence Principle

• Chapter 35: Quantum Mechanics
• 35.1: Wave Particle Duality and Probability
• 35.2: Schrödinger Equation and Wave Functions (5)
• 35.3: Particles in 1D Potential Energy Wells (18)
• 35.4: 3D Quantum Mechanics
• 35.5: Relativistic Quantum Mechanics; Antiparticles

• Chapter 36: Atomic Physics
• 36.1: Quantum Mechanics of the Hydrogen Atom (13)
• 36.2: Electron Spin and Total Atomic Angular Momentum (2)
• 36.3: Pauli Exclusion Principle (2)
• 36.4: Electronic Shells, Subshells, and Orbitals (2)
• 36.5: Electronic Transitions; Emission; Absorption

• Chapter 37: Physics of Molecules and Solids
• 37.1: Types of Atomic Bonds (5)
• 37.2: Rotational and Vibrational Energy Levels (11)
• 37.3: Crystals; Band Theory; Conductors; Semiconductors (12)
• 37.4: Superconductors and Superconductivity

• Chapter 38: Nuclear Physics
• 38.1: Structure of the Nucleus (15)
• 38.2: Radioactive Decay
• 38.3: Nuclear Binding Energy (4)
• 38.4: Fission (11)
• 38.5: Fusion (3)

• Chapter 39: Particle Physics and Cosmology
• 39.1: Particle Interactions and Virtual Particles (2)
• 39.2: Types of Particles and Conservation Laws (7)
• 39.3: Standard Model of Particle Physics (4)
• 39.4: Unification of Fundamental Forces
• 39.5: Cosmology (1)

In addition to questions directly from your course text, WebAssign adopters of the 3rd edition of Essential University Physics by Wolfson 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 more than 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
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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: Force and Dynamics
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Chapter 5: Applications of Newton's Laws
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Chapter 6: Work and Energy
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Chapter 7: Energy Conservation
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Chapter 8: Gravity
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Chapter 9: Multiparticle Systems
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Chapter 10: Rotation
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Chapter 11: Angular Momentum and Vector Rotational Quantities
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Chapter 12: Static Equilibrium
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Chapter 13: Oscillations
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Chapter 14: Waves
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Chapter 15: Fluids
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Chapter 16: Heat and Temperature
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Chapter 17: Thermal Properties of Matter
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Chapter 18: First Law of Thermodynamics
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Chapter 19: Second Law of Thermodynamics
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Chapter 20: Electric Force and Electric Field
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Chapter 21: Gauss's Law
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Chapter 22: Electric Potential
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Chapter 23: Capacitors
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Chapter 24: Current
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Chapter 25: DC Circuits
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Chapter 26: Magnetic Force and Field
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Chapter 27: Faraday's Law and Induction
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Chapter 28: AC Circuits
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Chapter 29: Electromagnetic Waves
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Chapter 30: Geometric Optics: Reflection and Refraction
30.P 42 001.Tutorial 002 003 004 005 006 007 008 009 010.Tutorial 011 012 013 014 015 016 017 018 019 020 021.Tutorial 022 023 024 025 026.Tutorial 027 028 029 030 031 032 033 034 035 036 037 038 039 040 041 042
Chapter 31: Geometric Optics: Image Formation
31.P 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 32: Wave Optics
32.P 100 001.Tutorial 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017.Tutorial 018 019 020 021 022 023 024 025 026 027 028 029 030 031.Tutorial 032 033 034 035 036 037 038 039 040 041 042 043.Tutorial 044 045 046 047 048 049 050 051 052 053.Tutorial 054 055 056 057 058 059 060 061 062 063 064 065 066 067 068 069.Tutorial 070 071 072 073 074 075.Tutorial 076 077 078 079 080 081 082 083 084 085 086 087 088 089 090.Tutorial 091 092 093 094 095 096 097 098 099 100
Chapter 33: Special Relativity
33.P 29 001 002 003.Tutorial 004 005 006 007 008.Tutorial 009 010 011 012 013.Tutorial 014 015 016 017 018 019 020 021 022 023 024 025 026 027 028 029.Tutorial
Chapter 34: Quantum Theory: Particles and Waves
34.P 51 001 002 003.Tutorial 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020.Tutorial 021 022 023 024 025 026.Tutorial 027 028 029 030 031 032 033 034 035 036 037 038.Tutorial 039 040 041 042 043 044.Tutorial 045 046.Tutorial 047 048 049 050 051
Chapter 35: Quantum Mechanics
35.P 23 001 002 003 004 005 006 007 008 009 010.Tutorial 011 012 013 014 015 016 017 018 019 020 021 022 023
Chapter 36: Atomic Physics
36.P 19 001 002 003 004 005 006 007 008 009 010.Tutorial 011 012 013 014 015 016 017 018 019
Chapter 37: Physics of Molecules and Solids
37.P 28 001 002.Tutorial 003 004 005 006.Tutorial 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021.Tutorial 022 023 024 025 026 027 028
Chapter 38: Nuclear Physics
38.P 33 001 002 003 004 005 006.Tutorial 007 008 009 010 011 012 013 014 015 016.Tutorial 017 018 019 020.Tutorial 021 022 023 024 025 026 027 028 029 030 031.Tutorial 032.Tutorial 033
Chapter 39: Particle Physics and Cosmology
39.P 14 001 002 003 004 005 006 007.Tutorial 008 009 010 011 012 013.Tutorial 014
Total 2043