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- Chapter 1: Systems of Measurement
- 1: Conceptual Problems (7)
- 1: Estimation and Approximation
- 1.1: Units (2)
- 1.2: Conversion of Units (7)
- 1.3: Dimensions of Physical Quantities (1)
- 1.4: Scientific Notation (3)
- 1.5: Significant Figures and Orders of Magnitude
- 1: General Problems (2)
- Chapter 2: Motion in One Dimension
- 2: Conceptual Problems (22)
- 2: Estimation and Approximation
- 2.1: Displacement, Velocity, and Speed (9)
- 2.2: Acceleration (1)
- 2.3: Motion with Constant Acceleration (10)
- 2.4: Integration
- 2: General Problems
- Chapter 3: Motion in Two and Three Dimensions (1)
- 3: Conceptual Problems (14)
- 3: Estimation and Approximation
- 3.1: The Displacement Vector (5)
- 3.2: General Properties of Vectors (5)
- 3.3: Position, Velocity, and Acceleration (12)
- 3.4: Special Case 1: Projectile Motion (6)
- 3.5: Special Case 2: Circular Motion
- 3: General Problems
- Chapter 4: Newton's Law
- 4: Conceptual Problems (12)
- 4: Estimation and Approximation
- 4.1: Newton's First Law: The Law of Inertia (5)
- 4.2: Force, Mass, and Newton's Second Law (8)
- 4.3: The Force Due to Gravity
- 4.4: Forces in Nature
- 4.5: Problem Solving: Free Body Diagrams (23)
- 4.6: Newton's Third Law
- 4.7: Problems with Two or More Objects
- 4: General Problems (2)
- Chapter 5: Applications of Newton's Law
- 5: Conceptual Problems (8)
- 5: Estimation and Approximation
- 5.1: Friction (25)
- 5.2: Motion Along a Curved Path (14)
- 5.3: Drag Forces (1)
- 5.4: Numerical Integration: Euler's Method
- 5: General Problems (7)
- Chapter 6: Work and Energy
- 6: Conceptual Problems (8)
- 6: Estimation and Approximation
- 6.1: Work and Kinetic Energy (10)
- 6.2: The Dot Product (4)
- 6.3: Work and Energy in Three Dimensions (5)
- 6.4: Potential Energy (5)
- 6: General Problems (6)
- Chapter 7: Conservation of Energy
- 7: Conceptual Problems (3)
- 7: Estimation and Approximation (1)
- 7.1: The Conservation of Mechanical Energy (17)
- 7.2: The Conservation of Energy (6)
- 7.3: Mass and Energy (3)
- 7.4: Quantization of Energy
- 7: General Problems (9)
- Chapter 8: Systems of Particles and Conservation of Linear Momentum
- 8: Conceptual Problems (4)
- 8: Estimation and Approximation
- 8.1: The Center of Mass (1)
- 8.2: Finding the Center of Mass by Integration
- 8.3: Motion of the Center of Mass (2)
- 8.4: Conservation of Linear Momentum (4)
- 8.5: Kinetic Energy of a System (3)
- 8.6: Collisions (18)
- 8.7: The Center-of-Mass Reference Frame
- 8.8: Systems with Continuously Varying Mass: Rocket Propulsion (2)
- 8: General Problems (10)
- Chapter 9: Rotation
- 9: Conceptual Problems (12)
- 9: Estimation and Approximation (1)
- 9.1: Rotational Kinematics: Angular Velocity and Angular Acceleration (10)
- 9.2: Rotational Kinetic Energy (3)
- 9.3: Calculating the Moment of Inertia (3)
- 9.4: Newton's Second Law for Rotation (5)
- 9.5: Applications of Newton's Second Law for Rotation (5)
- 9.6: Rolling Objects (9)
- 9: General Problems (6)
- Chapter 10: Conservation of Angular Momentum
- 10: Conceptual Problems (13)
- 10: Estimation and Approximation (3)
- 10.1: The Vector Nature of Rotation (2)
- 10.2: Torque and Angular Momentum (3)
- 10.3: Conservation of Angular Momentum (3)
- 10.4: Quantization of Angular Momentum (8)
- 10: General Problems (5)
- Chapter R: Special Chapter on Relatively
- R: Conceptual Problems (1)
- R: Estimation and Approximation (1)
- R-1: The Principle of Relativity and the Constancy of the Speed of Light
- R-2: Moving Sticks
- R-3: Moving Clocks
- R-4: Moving Sticks Again
- R: Lenth Contraction and Time Dilation (4)
- R-5: Distant Clocks and Simultaneity (1)
- R-6: Applying the Rules
- R-7: Relativistic Momentum, Mass, and Energy (2)
- R: General Problems (1)
- Chapter 11: Gravity
- 11: Conceptual Problems (4)
- 11: Estimation and Approximation
- 11.1: Kepler's Laws (1)
- 11.2: Newton's Law of Gravity (10)
- 11.3: Gravitational Potential Energy (10)
- 11.4: The Gravitational Field (3)
- 11.5: Finding the Gravitational Field of a Spherical Shell by Integration (5)
- 11: General Problems (2)
- Chapter 12: Static Equilibrium and Elasticity
- 12: Conceptual Problems (2)
- 12: Estimation and Approximation
- 12.1: Conditions for Equilibrium (3)
- 12.2: The Center of Gravity
- 12.3: Some Examples of Static Equilibrium (9)
- 12.4: Couples
- 12.5: Static Equilibrium in an Accelerated Frame
- 12.6: Stability of Rotational Equilibrium
- 12.7: Indeterminate Problems
- 12.8: Stress and Strain (8)
- 12: General Problems (10)
- Chapter 13: Fluids
- 13: Conceptual Problems (6)
- 13: Estimation and Approximation
- 13.1: Density (3)
- 13.2: Pressure in a Fluid (7)
- 13.3: Buoyancy and Archimedes' Principle (17)
- 13.4: Fluids in Motion (1)
- 13: General Problems (14)
- Chapter 14: Oscillations
- 14: Conceptual Problems (4)
- 14: Estimation and Approximation
- 14.1: Simple Harmonic Motion (6)
- 14.2: Energy in Simple Harmonic Motion (6)
- 14.3: Some Oscillating Systems (22)
- 14.4: Damped Oscillations (3)
- 14.5: Driven Oscillations and Resonance (2)
- 14: General Problems (5)
- Chapter 15: Traveling Waves
- 15: Conceptual Problems (3)
- 15: Estimation and Approximation (1)
- 15.1: Simple Wave Motion (5)
- 15.2: Periodic Waves (8)
- 15.3: Waves in Three Dimensions (3)
- 15.4: Waves Encountering Barriers (2)
- 15.5: The Doppler Effect (16)
- 15: General Problems (7)
- Chapter 16: Superposition and Standing Waves
- 16: Conceptual Problems (4)
- 16: Estimation and Approximation
- 16.1: Superposition of Waves (7)
- 16.2: Standing Waves (16)
- 16.3: The Superposition of Standing Waves
- 16.4: Harmonic Analysis and Synthesis
- 16.5: Wave Packets and Dispersion
- 16: General Problems (9)
- Chapter 17: Temperature and the Kinetic Theory of Gases
- 17: Conceptual Problems (16)
- 17: Estimation and Approximation (1)
- 17.1: Thermal Equilibrium and Temperature
- 17.2: The Celsius and Fahrenheit Temperature Scales (11)
- 17.3: Gas Thermometers and the Absolute Temperature Scale
- 17.4: The Ideal-Gas Law (9)
- 17.5: The Kinetic Theory of Gases (4)
- 17: General Problems (5)
- Chapter 18: Heat and the First Law of Thermodynamics
- 18: Conceptual Problems (5)
- 18: Estimation and Approximation (1)
- 18.1: Heat Capacity and Specific Heat (3)
- 18.2: Change of Phase and Latent Heat (4)
- 18.3: Joule's Experiment and the First Law of Thermodynamics (14)
- 18.4: The Internal Energy of an Ideal Gas
- 18.5: Work and the PV Diagram for a Gas (3)
- 18.6: Heat Capacities of Gases (1)
- 18.7: Heat Capacities of Solids
- 18.8: Failure of Equipartition Theorem (2)
- 18.9: The Quasi-Static Adiabatic Compression of a Gas (3)
- 18: General Problems (13)
- Chapter 19: The Second Law of Thermodynamics
- 19: Conceptual Problems (4)
- 19: Estimation and Approximation
- 19.1: Heat Engines and the Second Law of Thermodynamics (6)
- 19.2: Refrigerators and the Second Law of Thermodynamics (2)
- 19.3: Equivalence of the Heat-Engine and Refrigerator Statements
- 19.4: The Carnot Engine (5)
- 19.5: Heat Pumps (2)
- 19.6: Irreversibility and Disorder
- 19.7: Entropy (9)
- 19.8: Entropy and the Availability of Energy (1)
- 19.9: Entropy and Probability
- 19: General Problems (10)
- Chapter 20: Thermal Properties and Processes
- 20: Conceptual Problems (7)
- 20: Estimation and Approximation (1)
- 20.1: Thermal Expansion (12)
- 20.2: The Van der Waals Equation and Liquid Vapor Isotherms (1)
- 20.3: Phase Diagrams (1)
- 20.4: The Transfer of Thermal Energy (10)
- 20: General Problems (6)
- Chapter 21: The Electric Field I: Discrete Charge Distributions
- 21: Conceptual Problems (9)
- 21: Estimation and Approximation
- 21.1: Electric Charge (3)
- 21.2: Conductors and Insulators
- 21.3: Coulomb's Law (8)
- 21.4: The Electric Field (7)
- 21.5: Electric Field Lines
- 21.6: Motion of Point Charges in Electric Fields (10)
- 21.7: Electric Dipoles in Electric Fields
- 21: General Problems (14)
- Chapter 22: The Electric Field II: Continuous Charge Distributions
- 22: Conceptual Problems (10)
- 22: Estimation and Approximation (1)
- 22.1: Calculating E from Coulomb's Law (4)
- 22.2: Gauss's Law (13)
- 22.3: Calculating E from Gauss's Law
- 22.4: Discontinuity of E
- 22.5: Charge and Field at Conductor Surfaces (8)
- 22.6: Derivation of Gauss's Law From Coulomb's Law
- 22: General Problems (11)
- Chapter 23: Electric Potential
- 23: Conceptual Problems (11)
- 23: Estimation and Approximation
- 23.1: Potential Difference (6)
- 23.2: Potential Due to a System of Point Charges (4)
- 23.3: Computing the Electric Field from the Potential (6)
- 23.4: Calculations of V for Continuous Charge Distributions (8)
- 23.5: Equipotential Surfaces
- 23: General Problems (9)
- Chapter 24: Electrostatic Energy and Capacitance
- 24: Conceptual Problems (6)
- 24: Estimation and Approximation
- 24.1: Electrostatic Potential Energy (2)
- 24.2: Capacitance (1)
- 24.3: The Storage of Electrical Energy (4)
- 24.4: Capacitors, Batteries, and Circuits (19)
- 24.5: Dielectrics (5)
- 24.6: Molecular View of a Dielectric
- 24: General Problems (8)
- Chapter 25: Electric Current and Direct-Current Circuits
- 25: Conceptual Problems (10)
- 25: Estimation and Approximation
- 25.1: Current and the Motion of Charges (6)
- 25.2: Resistance and Ohm's Law (18)
- 25.3: Energy in Electric Circuits (9)
- 25.4: Combinations of Resistors (7)
- 25.5: Kirchhoff's Rules (4)
- 25.6: RC Circuits (5)
- 25: General Problems (1)
- Chapter 26: The Magnetic Field
- 26: Conceptual Problems (7)
- 26: Estimation and Approximation
- 26.1: The Force Exerted by a Magnetic Field (8)
- 26.2: Motion of a Point Charge in a Magnetic Field (13)
- 26.3: Torques on Current Loops and Magnets (5)
- 26.4: The Hall Effect (4)
- 26: General Problems (4)
- Chapter 27: Sources of the Magnetic Field
- 27: Conceptual Problems (6)
- 27: Estimation and Approximation (1)
- 27.1: The Magnetic Field of Moving Point Charges (2)
- 27.2: The Magnetic Field of Currents: The Biot-Savart Law (13)
- 27.3: Gauss's Law for Magnetism
- 27.4: Ampère's Law (3)
- 27.5: Magnetism in Matter (11)
- 27: General Problems (11)
- Chapter 28: Magnetic Induction
- 28: Conceptual Problems (4)
- 28: Estimation and Approximation
- 28.1: Magnetic Flux (5)
- 28.2: Induced EMF and Faraday's Law (6)
- 28.3: Lenz's Law
- 28.4: Motional EMF (6)
- 28.5: Eddy Currents
- 28.6: Inductance (5)
- 28.7: Magnetic Energy (3)
- 28.8: RL Circuits (7)
- 28.9: Magnetic Properties of Superconductors
- 28: General Problems (4)
- Chapter 29: Alternating Current Generators
- 29: Conceptual Problems (4)
- 29: Estimation and Approximation
- 29.1: Alternating Current Generators (2)
- 29.2: Alternating Current in a Resistor (2)
- 29.3: Alternating-Current Circuits (2)
- 29.4: Phasors
- 29.5: LC and RLC Circuits Without a Generator (9)
- 29.6: Driven RLC Circuit (12)
- 29.7: The Transformer (4)
- 29: General Problems (5)
- Chapter 30: Maxwell's Equations and Electromagnetic Waves
- 30: Conceptual Problems (3)
- 30: Estimation and Approximation (1)
- 30.1: Maxwell's Displacement Current (4)
- 30.2: Maxwell's Equations (3)
- 30.3: Electromagnetic Waves (17)
- 30.4: The Wave Equation for Electromagnetic Waves
- 30: General Problems (4)
- Chapter 31: Properties of Light
- 31: Conceptual Problems (6)
- 31: Estimation and Approximation
- 31.1: Wave-Particle Duality
- 31.2: Light Spectra
- 31.3: Sources of Light (4)
- 31.4: The Speed of Light (3)
- 31.5: The Propagation of Light
- 31.6: Reflection and Refraction (8)
- 31.7: Polarization (3)
- 31.8: Derivation of the Laws of Reflection and Refraction
- 31: General Problems (7)
- Chapter 32: Optical Images
- 32: Conceptual Problems (6)
- 32: Estimation and Approximation
- 32.1: Mirrors (11)
- 32.2: Lenses (1)
- 32.3: Aberrations
- 32.4: Optical Instruments (10)
- 32: General Problems (4)
- Chapter 33: Interference and Diffraction
- 33: Conceptual Problems (1)
- 33: Estimation and Approximation
- 33.1: Phase Differences and Coherence (3)
- 33.2: Interference in Thin Films (6)
- 33.3: Two-Slit Interference Pattern (3)
- 33.4: Diffraction Pattern of a Single Slit (4)
- 33.5: Using Phasors to Add Harmonic Waves
- 33.6: Fraunhofer and Fresnel Diffraction
- 33.7: Diffraction and Resolution (6)
- 33.8: Diffraction Gratings (6)
- 33: General Problems (4)
- Chapter 34: Wave-Particle Duality and Quantum Physics (1)
- 34: Conceptual Problems (6)
- 34: Estimation and Approximation
- 34.1: Light
- 34.2: The Particle Nature of Light: Photons (7)
- 34.3: Energy Quantization in Atoms (4)
- 34.4: Electrons and Matter Waves (6)
- 34.5: The Interpretation of the Wave Function
- 34.6: Wave-Particle Duality
- 34.7: A Particle in a Box (1)
- 34.8: Expectation Values (2)
- 34.9: Energy Quantization in Other Systems
- 34: General Problems (7)
- Chapter 35: Applications of the Schrödinger Equation
- 35: Conceptual Problems (1)
- 35: Estimation and Approximation
- 35.1: The Schrödinger Equation
- 35.2: A Particle in a Finite Square Well Potential
- 35.3: The Harmonic Oscillator (1)
- 35.4: Reflection and Transmission of Electron Waves: Barrier Penetration (4)
- 35.5: The Schrödinger Equation in Three Dimensions (1)
- 35.6: The Schrödinger Equation for Two Identical Particles (2)
- 35: General Problems (2)
- Chapter 36: Atoms
- 36: Conceptual Problems (4)
- 36: Estimation and Approximation
- 36.1: The Nuclear Atom
- 36.2: The Bohr Model of the Hydrogen Atom (2)
- 36.3: Quantum Theory of Atoms (2)
- 36.4: Quantum Theory of the Hydrogen Atom (2)
- 36.5: The Spin-Orbit Effect and Fine Structure (2)
- 36.6: The Periodic Table (3)
- 36.7: Optical Spectra and X-Ray Spectra (3)
- 36: General Problems (2)
- Chapter 37: Molecules
- 37: Conceptual Problems (2)
- 37: Estimation and Approximation (1)
- 37.1: Molecular Bonding (7)
- 37.2: Polyatomic Molecules
- 37.3: Energy Levels and Spectra of Diatomic Molecules (6)
- 37: General Problems (1)
- Chapter 38: Solids
- 38: Conceptual Problems (9)
- 38: Estimation and Approximation (1)
- 38.1: The Structure of Solids (3)
- 38.2: Polyatomic Molecules (1)
- 38.3: The Fermi Electron Gas (11)
- 38.4: Quantum Theory of Electrical Conduction (1)
- 38.5: Band Theory of Solids (1)
- 38.6: Semiconductors (3)
- 38.7: Semiconductor Junctions and Devices (5)
- 38.8: Superconductivity
- 38.9: The Fermi-Dirac Distribution (3)
- 38: General Problems (3)
- Chapter 39: Relativity
- 39: Conceptual Problems (3)
- 39: Estimation and Approximation (1)
- 39.1: Newtonian Relativity
- 39.2: Einstein's Postulates (1)
- 39.3: The Lorentz Transformation (3)
- 39.4: Clock Synchronization and Simultaneity (1)
- 39.5: The Velocity Transformation (3)
- 39.6: Relativistic Momentum (1)
- 39.7: Relativistic Energy (1)
- 39.8: General Relativity
- 39: General Problems (3)
- Chapter 40: Nuclear Physics
- 40: Conceptual Problems (1)
- 40: Estimation and Approximation
- 40.1: Properties of Nuclei (2)
- 40.2: Radioactivity (6)
- 40.3: Nuclear Reactions (1)
- 40.4: Fission and Fusion (4)
- 40: General Problems (7)
- Chapter 41: Elementary Particles and the Beginning of the Universe
- 41.1: Hadrons and Leptons (6)
- 41.2: Spin and Antiparticles (2)
- 41.3: The Conservation Laws (2)
- 41.4: Quarks/Quark Confinement (5)
- 41.5: Field Particles
- 41.6: The Electroweak Theory
- 41.7: The Standard Model/Grand Unification Theories
- 41.8: Evolution of the Universe/2.7-K Radiation/Big Bang
- 41: General Problems
Questions Available within WebAssign
Most questions from this textbook are available in WebAssign. The online questions are identical to the textbook questions except for minor wording changes necessary for Web use. Whenever possible, variables, numbers, or words have been randomized so that each student receives a unique version of the question. This list is updated nightly.
Question Group Key
| Problem |
Question Availability Color Key
| BLACK questions are available now |
| BOLD ORANGE questions are under development |
| Group | Quantity | Questions |
|---|---|---|
| Chapter R: Special Chapter on Relatively | ||
| P | 10 | 002 009 015 016 019 021 027 032 041 044 |
| Chapter 1: Systems of Measurement | ||
| P | 22 | 001 002 003 004 005 006 007 019 020 023 024 025 026 029 030 032 035 043 044 045 053 056 |
| Chapter 2: Motion in One Dimension | ||
| P | 42 | 015 016 017 019 020 021 023 025 026 027 028 029 030 031 032 033 034 035 036 038 039 041 048 049 050 051 055 056 057 058 060 065 070 071 072 073 075 076 078 087 092 095 |
| Chapter 3: Motion in Two and Three Dimensions | ||
| P | 43 | 002 005 006 007 009 010 013 016 020 021 022 023 024 025 040 042 043 044 045 046 047 048 049 051 053 054 055 056 057 058 059 063 064 065 066 067 076 079 081 084 086 087 105 |
| Chapter 4: Newton's Law | ||
| P | 50 | 001 003 004 005 006 013 014 015 019 020 021 022 026 027 028 029 031 032 033 036 037 038 039 040 042 044 048 051 052 053 057 058 059 060 061 063 065 066 067 068 070 072 075 076 077 082 084 086 098 099 |
| Chapter 5: Applications of Newton's Law | ||
| P | 55 | 002 003 004 005 009 012 013 016 021 022 023 024 025 026 027 028 029 031 032 033 034 035 036 037 038 039 041 042 046 050 051 053 059 065 066 067 068 070 073 075 076 079 082 083 084 087 090 092 102 103 106 109 111 115 116 |
| Chapter 6: Work and Energy | ||
| P | 38 | 001 002 004 006 009 010 011 014 020 021 022 023 024 026 027 028 030 031 035 036 037 039 046 047 048 049 050 055 056 057 059 060 073 074 075 076 082 083 |
| Chapter 7: Conservation of Energy | ||
| P | 39 | 001 002 003 012 016 017 019 020 021 022 023 024 026 029 032 033 034 035 036 038 039 042 043 044 045 047 048 055 059 061 062 064 068 070 072 073 076 082 083 |
| Chapter 8: Systems of Particles and Conservation of Linear Momentum | ||
| P | 44 | 003 004 006 019 034 044 047 050 051 052 054 059 060 062 067 068 069 071 072 073 075 077 080 081 085 086 089 090 092 095 097 099 104 105 109 111 113 114 117 124 125 126 127 128 |
| Chapter 9: Rotation | ||
| P | 54 (1) | 002 003 008 009 010 011 014 015 017 018 019 022 023 026 027 028 029 030 031 032 033 034 035 036 037 038 042 043 047 059 060 063 065 065.alt 066 068 071 072 075 078 079 081 082 083 084 085 092 093 094 112 115 117 118 119 120 |
| Chapter 10: Conservation of Angular Momentum | ||
| P | 37 | 001 002 004 005 007 009 012 015 017 018 021 022 024 026 038 039 044 047 049 050 052 055 058 060 061 063 066 069 070 074 077 078 080 081 086 088 090 |
| Chapter 11: Gravity | ||
| P | 35 | 001 002 003 005 015 026 027 028 029 031 032 033 036 037 038 040 041 043 044 046 047 049 051 053 055 057 058 061 065 066 072 077 078 084 092 |
| Chapter 12: Static Equilibrium and Elasticity | ||
| P | 32 | 001 007 014 015 016 024 025 026 029 030 034 038 048 053 054 055 056 058 060 062 063 064 069 070 071 073 075 078 079 082 087 088 |
| Chapter 13: Fluids | ||
| P | 48 | 001 003 004 007 008 010 021 022 023 027 028 030 031 032 033 036 037 038 040 041 042 043 044 045 046 047 052 053 054 055 056 058 060 064 072 073 074 079 080 081 086 087 089 090 091 092 093 096 |
| Chapter 14: Oscillations | ||
| P | 48 | 003 004 005 020 023 026 028 030 031 034 035 036 037 038 039 040 041 043 044 045 046 047 049 050 051 053 057 058 059 061 063 067 068 069 073 074 078 079 082 084 086 090 092 098 101 104 110 114 |
| Chapter 15: Traveling Waves | ||
| P | 45 | 002 008 011 019 024 025 026 028 033 038 041 042 043 044 045 049 051 056 057 058 065 067 074 076 077 079 080 082 084 085 087 088 090 091 093 094 095 098 101 103 108 109 110 111 114 |
| Chapter 16: Superposition and Standing Waves | ||
| P | 36 | 003 004 005 015 022 023 025 031 037 039 043 044 046 047 048 049 050 051 052 055 057 059 060 061 062 063 066 072 074 076 077 079 080 082 083 086 |
| Chapter 17: Temperature and the Kinetic Theory of Gases | ||
| P | 46 | 001 003 004 007 008 009 010 011 013 014 014.alt 015 016 017 019 022 026 028 029 030 031 032 033 034 035 036 038 039 042 043 044 046 047 048 049 050 052 056 057 060 061 066 067 068 069 070 |
| Chapter 18: Heat and the First Law of Thermodynamics | ||
| P | 49 | 006 008 012 015 017 024 026 027 028 029 030 031 032 033 036 037 038 039 040 042 043 045 046 047 049 050 051 053 056 059 060 065 066 070 073 075 084 085 087 091 092 094 095 096 097 099 100 102 105 |
| Chapter 19: The Second Law of Thermodynamics | ||
| P | 38 (1) | 004 005 006 014 021 022 023 024 025 026 028 029 035 036 040 041 042 043 044 048 052 053 054 055 056 057 058 059 061 063 064 065 067 068 069 071 073 074 075 |
| Chapter 20: Thermal Properties and Processes | ||
| P | 38 | 002 003 006 008 009 011 013 016 020 022 023 024 025 026 027 028 029 030 031 032 034 036 038 039 040 041 044 046 047 048 049 050 051 054 055 056 060 061 |
| Chapter 21: The Electric Field I: Discrete Charge Distributions | ||
| P | 51 | 002 003 006 007 008 009 013 014 016 025 026 027 028 029 030 031 032 033 034 035 037 038 039 040 041 042 043 049 050 051 052 053 055 056 057 058 061 064 066 067 070 071 074 075 076 077 078 079 082 084 089 |
| Chapter 22: The Electric Field II: Continuous Charge Distributions | ||
| P | 47 | 001 002 004 005 007 008 009 010 011 013 016 017 019 021 029 033 035 037 038 039 040 041 042 043 049 051 053 057 058 059 060 061 062 063 064 065 067 068 072 073 074 079 080 081 082 090 091 |
| Chapter 23: Electric Potential | ||
| P | 44 | 001 002 003 004 005 006 011 012 013 014 016 021 022 023 025 026 027 028 029 030 031 035 037 038 039 040 042 044 045 056 060 061 062 064 065 068 070 074 075 076 078 079 082 083 |
| Chapter 24: Electrostatic Energy and Capacitance | ||
| P | 45 | 002 005 006 008 009 012 019 020 022 025 026 027 031 034 036 037 038 039 041 042 046 047 048 049 050 058 059 060 061 062 063 064 070 074 075 076 078 081 082 089 090 091 098 099 100 |
| Chapter 25: Electric Current and Direct-Current Circuits | ||
| P | 60 | 005 006 009 010 012 014 015 021 022 026 033 034 035 037 038 039 040 041 042 043 044 045 046 047 048 050 051 052 053 060 061 062 063 064 068 069 070 071 072 074 075 076 077 079 082 084 087 088 089 090 093 094 097 103 113 114 115 116 117 133 |
| Chapter 26: The Magnetic Field | ||
| P | 41 | 001 003 004 007 010 011 012 018 019 020 021 022 025 026 028 031 032 033 038 039 041 042 043 045 046 048 049 050 053 054 055 060 061 070 071 072 073 076 077 083 085 |
| Chapter 27: Sources of the Magnetic Field | ||
| P | 47 | 004 005 007 010 012 018 020 023 026 028 031 033 034 042 043 050 051 052 053 055 059 060 064 066 071 073 077 078 080 082 083 088 089 093 095 096 105 106 107 108 110 114 115 116 117 119 121 |
| Chapter 28: Magnetic Induction | ||
| P | 40 | 001 002 006 009 017 018 020 021 022 027 030 031 032 033 034 036 037 038 040 048 049 053 055 056 057 058 060 062 066 068 069 071 073 074 077 078 082 084 085 086 |
| Chapter 29: Alternating Current Generators | ||
| P | 40 | 002 010 014 016 019 021 023 024 026 029 033 035 036 038 039 041 042 046 047 068 070 071 073 074 075 076 081 082 085 087 088 105 106 107 109 114 115 116 118 119 |
| Chapter 30: Maxwell's Equations and Electromagnetic Waves | ||
| P | 32 | 001 003 004 011 015 016 019 022 025 026 027 028 029 030 032 033 034 035 036 038 039 040 041 042 043 044 047 049 057 058 060 062 |
| Chapter 31: Properties of Light | ||
| P | 31 | 004 007 008 009 012 013 019 020 021 022 025 026 029 034 035 036 042 043 044 045 051 054 055 057 067 069 071 073 080 081 082 |
| Chapter 32: Optical Images | ||
| P | 32 | 003 007 011 012 015 016 026 029 030 035 036 037 040 041 042 043 049 053 079 080 081 083 085 088 089 092 093 100 111 112 116 117 |
| Chapter 33: Interference and Diffraction | ||
| P | 33 | 010 017 018 019 022 024 025 026 028 029 030 032 033 037 041 042 044 053 055 056 058 059 060 061 066 068 069 070 071 079 082 085 087 |
| Chapter 34: Wave-Particle Duality and Quantum Physics | ||
| P | 34 | 002 003 005 007 008 012 018 020 022 024 025 026 028 030 031 034 035 037 038 040 042 044 047 054 055 056 067 070 072 073 075 076 082 086 |
| Chapter 35: Applications of the Schrödinger Equation | ||
| P | 11 | 001 006 015 016 017 018 025 027 028 032 034 |
| Chapter 36: Atoms | ||
| P | 20 | 002 006 007 009 023 025 034 035 040 049 050 051 054 055 056 060 061 062 070 072 |
| Chapter 37: Molecules | ||
| P | 17 | 004 010 012 015 016 017 018 019 022 023 026 027 030 032 033 034 040 |
| Chapter 38: Solids | ||
| P | 41 | 003 004 005 006 007 008 009 012 013 015 016 017 018 021 023 024 025 026 027 028 029 030 031 032 034 036 042 043 046 048 050 051 054 055 056 062 063 067 074 075 077 |
| Chapter 39: Relativity | ||
| P | 17 | 002 003 004 006 008 017 018 019 022 026 029 032 036 039 046 050 056 |
| Chapter 40: Nuclear Physics | ||
| P | 21 | 002 017 019 027 030 039 041 042 043 046 049 050 053 054 058 065 066 070 071 076 078 |
| Chapter 41: Elementary Particles and the Beginning of the Universe | ||
| P | 15 | 002 004 005 006 007 008 012 013 014 018 021 022 024 028 030 |
| Total | 1568 (2) | |