# Essential University Physics 3rd edition

Richard Wolfson
Publisher: Pearson Education

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• Chapter 1: Doing Physics
• 1.1: Realms of Physics
• 1.2: Measurements and Units (12)
• 1.3: Working with Numbers (4)
• 1.4: Strategies for Learning Physics
• 1: Problems (3)
• 1: For Thought and Discussion
• 1: Extra Problems (5)

• Chapter 2: Motion in a Straight Line
• 2.1: Average Motion (3)
• 2.2: Instantaneous Velocity (1)
• 2.3: Acceleration (2)
• 2.4: Constant Acceleration
• 2.5: The Acceleration of Gravity (3)
• 2.6: When Acceleration Isn't Constant
• 2: Problems (11)
• 2: For Thought and Discussion (3)
• 2: Extra Problems (14)

• Chapter 3: Motion in Two and Three Dimensions
• 3.1: Vectors
• 3.2: Velocity and Acceleration Vectors (2)
• 3.3: Relative Motion (1)
• 3.4: Constant Acceleration
• 3.5: Projectile Motion (3)
• 3.6: Uniform Circular Motion (2)
• 3: Problems (7)
• 3: For Thought and Discussion (1)
• 3: Extra Problems (27)

• Chapter 4: Force and Motion
• 4.1: The Wrong Question
• 4.2: Newton's First and Second Laws (4)
• 4.3: Forces
• 4.4: The Force of Gravity (3)
• 4.5: Using Newton's Second Law (3)
• 4.6: Newton's Third Law (4)
• 4: Problems (10)
• 4: For Thought and Discussion (5)
• 4: Extra Problems (18)

• Chapter 5: Using Newton's Laws
• 5.1: Using Newton's Second Law (3)
• 5.2: Multiple Objects (2)
• 5.3: Circular Motion (1)
• 5.4: Friction (1)
• 5.5: Drag Forces
• 5: Problems (12)
• 5: For Thought and Discussion (3)
• 5: Extra Problems (21)

• Chapter 6: Energy, Work, and Power
• 6.1: Energy
• 6.2: Work (4)
• 6.3: Forces That Vary (2)
• 6.4: Kinetic Energy (3)
• 6.5: Power (4)
• 6: Problems (5)
• 6: For Thought and Discussion (2)
• 6: Extra Problems (13)

• Chapter 7: Conservation of Energy
• 7.1: Conservative and Nonconservative Forces (2)
• 7.2: Potential Energy (3)
• 7.3: Conservation of Mechanical Energy (3)
• 7.4: Nonconservative Forces
• 7.5: Conservation of Energy
• 7.6: Potential-Energy Curves (3)
• 7: Problems (15)
• 7: For Thought and Discussion (1)
• 7: Extra Problems (22)

• Chapter 8: Gravity
• 8.1: Toward a Law of Gravity
• 8.2: Universal Gravitation (4)
• 8.3: Orbital Motion (2)
• 8.4: Gravitational Energy (4)
• 8.5: The Gravitational Field
• 8: Problems (10)
• 8: For Thought and Discussion (3)
• 8: Extra Problems (9)

• Chapter 9: Systems of Particles
• 9.1: Center of Mass (3)
• 9.2: Momentum (1)
• 9.3: Kinetic Energy of a System (1)
• 9.4: Collisions
• 9.5: Totally Inelastic Collisions
• 9.6: Elastic Collisions (1)
• 9: Problems (9)
• 9: For Thought and Discussion
• 9: Extra Problems (11)

• Chapter 10: Rotational Motion
• 10.1: Angular Velocity and Acceleration (2)
• 10.2: Torque (2)
• 10.3: Rotational Inertia and the Analog of Newton's Law (3)
• 10.4: Rotational Energy
• 10.5: Rolling Motion
• 10: Problems (9)
• 10: For Thought and Discussion (3)
• 10: Extra Problems (19)

• Chapter 11: Rotational Vectors and Angular Momentum
• 11.1: Angular Velocity and Acceleration Vectors (1)
• 11.2: Torque and the Vector Cross Product (1)
• 11.3: Angular Momentum (3)
• 11.4: Conservation of Angular Momentum (2)
• 11.5: Gyroscopes and Precession
• 11: Problems (11)
• 11: For Thought and Discussion (4)
• 11: Extra Problems (12)

• Chapter 12: Static Equilibrium
• 12.1: Conditions for Equilibrium
• 12.2: Center of Gravity (1)
• 12.3: Examples of Static Equilibrium (4)
• 12.4: Stability (1)
• 12: Problems (10)
• 12: For Thought and Discussion
• 12: Extra Problems (3)

• Chapter 13: Oscillatory Motion
• 13.1: Describing Oscillatory Motion (1)
• 13.2: Simple Harmonic Motion (4)
• 13.3: Applications of Simple Harmonic Motion (2)
• 13.4: Circular Motion and Harmonic Motion (1)
• 13.5: Energy in Simple Harmonic Motion (3)
• 13.6: Damped Harmonic Motion
• 13.7: Driven Oscillations and Resonance (3)
• 13: Problems (11)
• 13: For Thought and Discussion (4)
• 13: Extra Problems (7)

• Chapter 14: Wave Motion
• 14.1: Waves and Their Properties (4)
• 14.2: Wave Math (2)
• 14.3: Waves on a String (2)
• 14.4: Sound Waves
• 14.5: Interference (2)
• 14.6: Reflection and Refraction
• 14.7: Standing Waves (1)
• 14.8: The Doppler Effect and Shock Waves
• 14: Problems (6)
• 14: For Thought and Discussion (4)
• 14: Extra Problems (22)

• Chapter 15: Fluid Motion
• 15.1: Density and Pressure (3)
• 15.2: Hydrostatic Equilibrium (2)
• 15.3: Archimedes' Principle and Buoyancy (1)
• 15.4: Fluid Dynamics
• 15.5: Applications of Fluid Dynamics (2)
• 15.6: Viscosity and Turbulence
• 15: Problems (9)
• 15: For Thought and Discussion (1)
• 15: Extra Problems (9)

• Chapter 16: Temperature and Heat
• 16.1: Heat, Temperature, and Thermodynamic Equilibrium
• 16.2: Heat Capacity and Specific Heat (2)
• 16.3: Heat Transfer (1)
• 16.4: Thermal-Energy Balance
• 16: Problems (16)
• 16: For Thought and Discussion
• 16: Extra Problems (10)

• Chapter 17: The Thermal Behavior of Matter
• 17.1: Gases (3)
• 17.2: Phase Changes (1)
• 17.3: Thermal Expansion (1)
• 17: Problems (5)
• 17: For Thought and Discussion (1)
• 17: Extra Problems (15)

• Chapter 18: Heat, Work, and the First Law of Thermodynamics
• 18.1: The First Law of Thermodynamics (3)
• 18.2: Thermodynamic Processes (2)
• 18.3: Specific Heats of an Ideal Gas
• 18: Problems (9)
• 18: For Thought and Discussion
• 18: Extra Problems (1)

• Chapter 19: The Second Law of Thermodynamics
• 19.1: Reversibility and Irreversibility
• 19.2: The Second Law of Thermodynamics
• 19.3: Applications of the Second Law (1)
• 19.4: Entropy and Energy Quality (2)
• 19: Problems (8)
• 19: For Thought and Discussion
• 19: Extra Problems (5)

• Chapter 20: Electric Charge, Force, and Field
• 20.1: Electric Charge (2)
• 20.2: Coulomb's Law (2)
• 20.3: The Electric Field (3)
• 20.4: Fields of Charge Distributions (2)
• 20.5: Matter in Electric Fields (2)
• 20: Problems (10)
• 20: For Thought and Discussion (5)
• 20: Extra Problems (15)

• Chapter 21: Gauss's Law
• 21.1: Electric Field Lines (3)
• 21.2: Electric Field and Electric Flux (4)
• 21.3: Gauss's Law (3)
• 21.4: Using Gauss's Law (1)
• 21.5: Fields of Arbitrary Charge Distributions (1)
• 21.6: Gauss's Law and Conductors (1)
• 21: Problems (10)
• 21: For Thought and Discussion (12)
• 21: Extra Problems (13)

• Chapter 22: Electric Potential
• 22.1: Electric Potential Difference (5)
• 22.2: Calculating Potential Difference (2)
• 22.3: Potential Difference and the Electric Field (3)
• 22.4: Charged Conductors (2)
• 22: Problems (12)
• 23: For Thought and Discussion (8)
• 23: Extra Problems (12)

• Chapter 23: Electrostatic Energy and Capacitors
• 23.1: Electrostatic Energy (1)
• 23.2: Capacitors (2)
• 23.3: Using Capacitors (2)
• 23.4: Energy in the Electric Field (3)
• 23: Problems (6)
• 23: For Thought and Discussion (9)
• 23: Extra Problems (20)

• Chapter 24: Electric Current
• 24.1: Electric Current (3)
• 24.2: Conduction Mechanisms (2)
• 24.3: Resistance and Ohm's Law (1)
• 24.4: Electric Power (2)
• 24.5: Electrical Safety
• 24: Problems (6)
• 24: For Thought and Discussion (8)
• 24: Extra Problems (18)

• Chapter 25: Electric Circuits
• 25.1: Circuits, Symbols, and Electromotive Force (5)
• 25.2: Series and Parallel Resistors (3)
• 25.3: Kirchhoff's Laws and Multiloop Circuits (1)
• 25.4: Electrical Measurements (3)
• 25.5: Capacitors in Circuits (1)
• 25: Problems (8)
• 25: For Thought and Discussion (9)
• 25: Extra Problems (14)

• Chapter 26: Magnetism: Force and Field
• 26.1: What is Magnetism?
• 26.2: Magnetic Force and Field (1)
• 26.3: Charged Particles in Magnetic Fields
• 26.4: The Magnetic Force on a Current
• 26.5: Origin of the Magnetic Field (1)
• 26.6: Magnetic Dipoles (1)
• 26.7: Magnetic Matter
• 26.8: Ampère's Law
• 26: Problems (6)
• 26: For Thought and Discussion
• 26: Extra Problems (5)

• Chapter 27: Electromagnetic Induction
• 27.1: Induced Currents
• 27.3: Induction and Energy (4)
• 27.4: Inductance
• 27.5: Magnetic Energy
• 27.6: Induced Electric Fields (1)
• 27: Problems (10)
• 27: For Thought and Discussion (5)
• 27: Extra Problems (23)

• Chapter 28: Alternating-Current Circuits
• 28.1: Alternating Current (3)
• 28.2: Circuit Elements in AC Circuits (1)
• 28.3: LC Circuits
• 28.4: Driven RLC Circuits and Resonance (1)
• 28.5: Power in AC Circuits
• 28.6: Transformers and Power Supplies (1)
• 28: Problems (7)
• 28: For Thought and Discussion (6)
• 28: Extra Problems (18)

• Chapter 29: Maxwell's Equations and Electromagnetic Waves
• 29.1: The Four Laws of Electromagnetism
• 29.2: Ambiguity in Ampère's Law (2)
• 29.3: Maxwell's Equations
• 29.4: Electromagnetic Waves (2)
• 29.5: Properties of Electromagnetic Waves (8)
• 29.6: The Electromagnetic Spectrum
• 29.7: Producing Electromagnetic Waves
• 29.8: Energy and Momentum in Electromagnetic Waves (2)
• 29: Problems (9)
• 29: For Thought and Discussion (6)
• 29: Extra Problems (18)

• Chapter 30: Reflection and Refraction
• 30.1: Reflection (2)
• 30.2: Refraction (4)
• 30.3: Total Internal Reflection (2)
• 30.4: Dispersion (1)
• 30: Problems (7)
• 30: For Thought and Discussion (4)
• 30: Extra Problems (9)

• Chapter 31: Images and Optical Instruments
• 31.1: Images with Mirrors (4)
• 31.2: Images with Lenses (2)
• 31.3: Refraction in Lenses: The Details
• 31.4: Optical Instruments (1)
• 31: Problems (7)
• 31: For Thought and Discussion (6)
• 31: Extra Problems (12)

• Chapter 32: Interference and Diffraction
• 32.1: Coherence and Interference
• 32.2: Double-Slit Interference (2)
• 32.3: Multiple-Slit Interference and Diffraction Gratings (2)
• 32.4: Interferometry
• 32.5: Huygens' Principle and Diffraction (2)
• 32.6: The Diffraction Limit
• 32: Problems (6)
• 32: For Thought and Discussion (6)
• 32: Extra Problems (19)

• Chapter 33: Relativity
• 33.1: Speed c Relative to What?
• 33.2: Matter, Motion, and the Ether
• 33.3: Special Relativity
• 33.4: Space and Time in Relativity (4)
• 33.5: Simultaneity Is Relative
• 33.6: The Lorentz Transformations
• 33.7: Energy and Momentum in Relativity
• 33.8: Electromagnetism and Relativity
• 33.9: General Relativity
• 33: Problems (10)
• 33: For Thought and Discussion (3)
• 33: Extra Problems (6)

• Chapter 34: Particles and Waves
• 34.1: Toward Quantum Theory
• 34.3: Photons (2)
• 34.4: Atomic Spectra and the Bohr Atom (2)
• 34.5: Matter Waves (3)
• 34.6: The Uncertainty Principle (3)
• 34.7: Complementarity
• 34: Problems (11)
• 34: For Thought and Discussion (8)
• 34: Extra Problems (18)

• Chapter 35: Quantum Mechanics
• 35.1: Particles, Waves, and Probability
• 35.2: The Schrödinger Equation (1)
• 35.3: Particles and Potentials (1)
• 35.4: Quantum Mechanics in Three Dimensions
• 35.5: Relativistic Quantum Mechanics
• 35: Problems (6)
• 35: For Thought and Discussion
• 35: Extra Problems (5)

• Chapter 36: Atomic Physics
• 36.1: The Hydrogen Atom (3)
• 36.2: Electron Spin
• 36.3: The Exclusion Principle
• 36.4: Multielectron Atoms and the Periodic Table
• 36.5: Transitions and Atomic Spectra (1)
• 36: Problems (6)
• 36: For Thought and Discussion (1)
• 36: Extra Problems (2)

• Chapter 37: Molecules and Solids
• 37.1: Molecular Bonding
• 37.2: Molecular Energy Levels (1)
• 37.3: Solids (1)
• 37.4: Superconductivity
• 37: Problems (8)
• 37: For Thought and Discussion
• 37: Extra Problems (1)

• Chapter 38: Nuclear Physics
• 38.1: Elements, Isotopes, and Nuclear Structure (2)
• 38.3: Binding Energy and Nucleosynthesis (2)
• 38.4: Nuclear Fission
• 38.5: Nuclear Fusion
• 38: Problems (7)
• 38: For Thought and Discussion (1)
• 38: Extra Problems (13)

• Chapter 39: From Quarks to the Cosmos
• 39.1: Particles and Forces (1)
• 39.2: Particles and More Particles (3)
• 39.3: Quarks and the Standard Model (1)
• 39.4: Unification (1)
• 39.5: The Evolving Universe (1)
• 39: Problems (3)
• 39: For Thought and Discussion
• 39: Extra Problems (3)

Richard Wolfson's Essential University Physics, third edition, is a concise and progressive calculus-based physics textbook that offers clear writing, great problems, and relevant real-life applications in an affordable and streamlined text. It is designed for two- and three-semester university physics courses. The WebAssign component of this title features online questions that provide students with immediate feedback.

WebAssign content for University Physics includes:
• Answer feedback for every question and question part, designed specifically to address student misconceptions
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• Detailed, stepped-out solutions for every question, available at the instructor's discretion

##### Question Group Key
E - Exercise
P - Problem
TD - For Thought and Discussion
XP - Extra Problem

##### Question Availability Color Key
BLACK questions are available now
GRAY questions are under development

Group Quantity Questions
Chapter 1: Doing Physics
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1.P 3 039 042 049
1.XP 5 001 002 003 004 005
Chapter 2: Motion in a Straight Line
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2.TD 3 002 006 007
2.XP 14 001 002 003 004 005 006 007 008 009 010 011 012 013 014
Chapter 3: Motion in Two and Three Dimensions
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3.P 7 048 058 062 071 075 078 080
3.TD 1 007
3.XP 27 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021 022 023 024 025 026 027
Chapter 4: Force and Motion
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4.P 10 040 042 045 046 047 051 052 054 057 060
4.TD 5 002 004 006 007 009
4.XP 18 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018
Chapter 5: Using Newton's Laws
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5.TD 3 002 005 007
5.XP 21 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021
Chapter 6: Energy, Work, and Power
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6.P 5 043 044 054 073 077
6.TD 2 005 006
6.XP 13 001 002 003 004 005 006 007 008 009 010 011 012 013
Chapter 7: Conservation of Energy
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7.TD 1 004
7.XP 22 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021 022
Chapter 8: Gravity
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8.TD 3 002 003 006
8.XP 9 001 002 003 004 005 006 007 008 009
Chapter 9: Systems of Particles
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9.P 9 039 040 045 051 052 060 063 068 079
9.XP 11 001 002 003 004 005 006 007 008 009 010 011
Chapter 10: Rotational Motion
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10.P 9 041 042 044 045 057 059 062 064 067
10.TD 3 001 003 004
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Chapter 11: Rotational Vectors and Angular Momentum
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11.XP 12 001 002 003 004 005 006 007 008 009 010 011 012
Chapter 12: Static Equilibrium
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12.XP 3 001 002 003
Chapter 13: Oscillatory Motion
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13.P 11 043 046 051 053 059 072 073 074 077 082 083
13.TD 4 003 005 011 013
13.XP 7 001 002 003 004 005 006 007
Chapter 14: Wave Motion
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14.P 6 046 050 051 058 068 072
14.TD 4 001 002 005 007
14.XP 22 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021 022
Chapter 15: Fluid Motion
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15.P 9 039 043 046 048 051 052 056 060 061
15.TD 1 001
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Chapter 16: Temperature and Heat
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16.P 16 041 042 043 045 047 048 050 052 053 055 056 059 060 061 063 067
16.XP 10 001 002 003 004 005 006 007 008 009 010
Chapter 17: The Thermal Behavior of Matter
17.E 5 018 023 024 027 033
17.P 5 035 037 041 049 059
17.TD 1 001
17.XP 15 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015
Chapter 18: Heat, Work, and the First Law of Thermodynamics
18.E 5 015 018 019 020 023
18.P 9 032 034 037 039 048 049 054 061 062
18.XP 1 001
Chapter 19: The Second Law of Thermodynamics
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19.P 8 026 030 033 042 047 050 051 052
19.XP 5 001 002 003 004 005
Chapter 20: Electric Charge, Force, and Field
20.E 11 014 015 018 022 023 025 027 031 032 035 036
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20.TD 5 001 002 005 006 009
20.XP 15 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015
Chapter 21: Gauss's Law
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Chapter 22: Electric Potential
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Chapter 23: Electrostatic Energy and Capacitors
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Chapter 24: Electric Current
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24.XP 18 00 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017
Chapter 25: Electric Circuits
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Chapter 26: Magnetism: Force and Field
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26.P 6 044 046 055 059 064 068
26.XP 5 001 002 003 004 005
Chapter 27: Electromagnetic Induction
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Chapter 28: Alternating-Current Circuits
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28.XP 18 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018
Chapter 29: Maxwell's Equations and Electromagnetic Waves
29.E 14 013 014 015 016 017 019 020 021 022 024 026 027 029 030
29.P 9 034 036 038 039 043 046 049 051 052
29.TD 6 002 004 005 006 010 011
29.XP 18 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018
Chapter 30: Reflection and Refraction
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30.P 7 028 032 035 036 041 042 043
30.TD 4 002 003 005 007
30.XP 9 001 002 003 004 005 006 007 008 009
Chapter 31: Images and Optical Instruments
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31.P 7 036 037 038 048 049 062 067
31.TD 6 001 003 005 007 011 013
31.XP 12 001 002 003 004 005 006 007 008 009 010 011 012
Chapter 32: Interference and Diffraction
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32.TD 6 001 002 005 006 007 008
32.XP 19 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019
Chapter 33: Relativity
33.E 4 015 016 017 019
33.P 10 030 032 033 036 039 047 049 055 057 059
33.TD 3 002 004 006
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Chapter 34: Particles and Waves
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34.XP 18 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018
Chapter 35: Quantum Mechanics
35.E 2 013 017
35.P 6 032 034 035 037 039 043
35.XP 5 001 002 003 004 005
Chapter 36: Atomic Physics
36.E 4 015 019 020 032
36.P 6 036 039 040 047 051 052
36.TD 1 012
36.XP 2 001 002
Chapter 37: Molecules and Solids
37.E 2 018 027
37.P 8 029 030 036 041 052 053 055 064
37.XP 1 001
Chapter 38: Nuclear Physics
38.E 4 018 020 030 033
38.P 7 042 043 045 048 051 053 055
38.TD 1 002
38.XP 13 001 002 003 004 005 006 007 008 009 010 011 012 013
Chapter 39: From Quarks to the Cosmos
39.E 7 021 024 025 027 029 032 035
39.P 3 038 041 044
39.XP 3 001 002 003
Total 1261