College Physics 1st edition

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Roger Hinrichs, Paul Peter Urone, Kim Dirks, and Manjula Sharma
Publisher: OpenStax

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  • Chapter 1: Introduction: The Nature of Science and Physics
    • 1.1: Physics: An Introduction (1)
    • 1.2: Physical Quantities and Units (9)
    • 1.3: Accuracy, Precision, and Significant Figures (10)
    • 1.4: Approximation (9)
    • 1: Problems (29)

  • Chapter 2: Kinematics
    • 2.1: Displacement (2)
    • 2.2: Vectors, Scalars, and Coordinate Systems
    • 2.3: Time, Velocity, and Speed (7)
    • 2.4: Acceleration (3)
    • 2.5: Motion Equations for Constant Acceleration in One Dimension (13)
    • 2.6: Problem-Solving Basics for One-Dimensional Kinematics
    • 2.7: Falling Objects (8)
    • 2.8: Graphical Analysis of One-Dimensional Motion (1)
    • 2: Problems (45)

  • Chapter 3: Two-Dimensional Kinematics
    • 3.1: Kinematics in Two Dimensions: An Introduction
    • 3.2: Vector Addition and Subtraction: Graphical Methods (6)
    • 3.3: Vector Addition and Subtraction: Analytical Methods (7)
    • 3.4: Projectile Motion (13)
    • 3.5: Addition of Velocities (7)
    • 3: Problems (60)

  • Chapter 4: Dynamics: Force and Newton's Laws of Motion
    • 4.1: Development of Force Concept
    • 4.2: Newton's First Law of Motion: Inertia
    • 4.3: Newton's Second Law of Motion: Concept of a System (10)
    • 4.4: Newton's Third Law of Motion: Symmetry in Forces (1)
    • 4.5: Normal, Tension, and Other Examples of Forces (4)
    • 4.6: Problem-Solving Strategies (6)
    • 4.7: Further Applications of Newton's Laws of Motion (4)
    • 4.8: Extended Topic: The Four Basic Forces – An Introduction
    • 4: Problems (64)

  • Chapter 5: Further Applications of Newton's Laws: Friction, Drag, and Elasticity
    • 5.1: Friction (12)
    • 5.2: Drag Forces (5)
    • 5.3: Elasticity: Stress and Strain (8)
    • 5: Problems (57)

  • Chapter 6: Uniform Circular Motion and Gravitation
    • 6.1: Rotation Angle and Angular Velocity (7)
    • 6.2: Centripetal Acceleration (5)
    • 6.3: Centripetal Force (7)
    • 6.4: Fictitious Forces and Non-inertial Frames: The Coriolis Force
    • 6.5: Newton's Universal Law of Gravitation (6)
    • 6.6: Satellites and Kepler's Laws: An Argument for Simplicity (4)
    • 6: Problems (60)

  • Chapter 7: Work, Energy, and Energy Resources
    • 7.1: Work: The Scientific Definition (5)
    • 7.2: Kinetic Energy and the Work-Energy Theorem (4)
    • 7.3: Gravitational Potential Energy (4)
    • 7.4: Conservative Forces and Potential Energy (2)
    • 7.5: Nonconservative Forces (2)
    • 7.6: Conservation of Energy (2)
    • 7.7: Power (6)
    • 7.8: Work, Energy, and Power in Humans (8)
    • 7.9: World Energy Use
    • 7: Problems (70)

  • Chapter 8: Linear Momentum and Collisions
    • 8.1: Linear Momentum and Force (4)
    • 8.2: Impulse (7)
    • 8.3: Conservation of Momentum (3)
    • 8.4: Elastic Collisions in One Dimension (3)
    • 8.5: Inelastic Collisions in One Dimension (6)
    • 8.6: Collisions of Point Masses in Two Dimensions (3)
    • 8.7: Introduction to Rocket Propulsion (6)
    • 8: Problems (61)

  • Chapter 9: Statics and Torque
    • 9.1: The First Condition for Equilibrium
    • 9.2: The Second Condition for Equilibrium (3)
    • 9.3: Stability (9)
    • 9.4: Applications of Statistics, Including Problem-Solving Strategies (2)
    • 9.5: Simple Machines (8)
    • 9.6: Forces and Torques in Muscles and Joints (8)
    • 9: Problems (46)

  • Chapter 10: Rotational Motion and Angular Momentum
    • 10.1: Angular Acceleration (3)
    • 10.2: Kinematics of Rotational Motion (4)
    • 10.3: Dynamics of Rotational Motion: Rotational Inertia (5)
    • 10.4: Rotational Kinetic Energy: Work and Energy Revisited (7)
    • 10.5: Angular Momentum and Its Conservation (5)
    • 10.6: Collisions of Extended Bodies in Two Dimensions (2)
    • 10.7: Gyroscopic Effects: Vector Aspects of Angular Momentum (1)
    • 10: Problems (60)

  • Chapter 11: Fluid Statics
    • 11.1: What Is a Fluid?
    • 11.2: Density (5)
    • 11.3: Pressure (4)
    • 11.4: Variation of Pressure with Depth in a Fluid (3)
    • 11.5: Pascal's Principle (3)
    • 11.6: Gauge Pressure, Absolute Pressure, and Pressure Measurement (4)
    • 11.7: Archimedes' Principle (8)
    • 11.8: Cohesion and Adhesion in Liquids: Surface Tension and Capillary Action (5)
    • 11.9: Pressure in the Body (10)
    • 11: Problems (46)

  • Chapter 12: Fluid Dynamics and Its Biological and Medical Applications
    • 12.1: Flow Rate and Its Relation to Velocity (7)
    • 12.2: Bernoulli's Equation (5)
    • 12.3: The Most General Applications of Bernoulli's Equation (3)
    • 12.4: Viscosity and Laminar Flow; Poiseuille's Law (11)
    • 12.5: The Onset of Turbulence (3)
    • 12.6: Motion of an Object in a Viscous Fluid
    • 12.7: Molecular Transport Phenomena: Diffusion, Osmosis, and Related Processes (3)
    • 12: Problems (40)

  • Chapter 13: Temperature, Kinetic Theory, and the Gas Laws
    • 13.1: Temperature (5)
    • 13.2: Thermal Expansion of Solids and Liquids (7)
    • 13.3: The Ideal Gas Law (9)
    • 13.4: Kinetic Theory: Atomic and Molecular Explanation of Pressure and Temperature (5)
    • 13.5: Phase Changes
    • 13.6: Humidity, Evaporation, and Boiling (9)
    • 13: Problems (55)

  • Chapter 14: Heat and Heat Transfer Methods
    • 14.1: Heat
    • 14.2: Temperature Change and Heat Capacity (6)
    • 14.3: Phase Change and Latent Heat (11)
    • 14.4: Heat Transfer Methods
    • 14.5: Conduction (7)
    • 14.6: Convection (7)
    • 14.7: Radiation (6)
    • 14: Problems (52)

  • Chapter 15: Thermodynamics
    • 15.1: The First Law of Thermodynamics (7)
    • 15.2: The First Law of Thermodynamics and Some Simple Processes (4)
    • 15.3: Introduction to the Second Law of Thermodynamics: Heat Engines and Their Efficiency (7)
    • 15.4: Carnot's Perfect Heat Engine: The Second Law of Thermodynamics Restated (4)
    • 15.5: Applications of Thermodynamics: Heat Pumps and Refrigerators (5)
    • 15.6: Entropy and the Second Law of Thermodynamics: Disorder and the Unavailability of Energy (6)
    • 15.7: Statistical Interpretation of Entropy and the Second Law of Thermodynamics: The Underlying Explanation (2)
    • 15: Problems (44)

  • Chapter 16: Oscillatory Motion and Waves
    • 16.1: Hooke's Law: Stress and Strain Revisited (8)
    • 16.2: Period and Frequency in Oscillations (3)
    • 16.3: Simple Harmonic Motion: A Special Periodic Motion (8)
    • 16.4: The Simple Pendulum (5)
    • 16.5: Energy and the Simple Harmonic Oscillator (2)
    • 16.6 : Uniform Circular Motion and Simple Harmonic Motion (4)
    • 16.7: Damped Harmonic Motion
    • 16.8: Forced Oscillations and Resonance (3)
    • 16.9: Waves (5)
    • 16.10: Superposition and Interference (2)
    • 16.11: Energy in Waves: Intensity (4)
    • 16: Problems (66)

  • Chapter 17: Physics of Hearing
    • 17.1: Sound
    • 17.2: Speed of Sound, Frequency, and Wavelength (6)
    • 17.3: Sound Intensity and Sound Level (10)
    • 17.4: Doppler Effect and Sonic Booms (6)
    • 17.5: Sound Interference and Resonance: Standing Waves in Air Columns (9)
    • 17.6: Hearing (7)
    • 17.7: Ultrasound (7)
    • 17: Problems (60)

  • Chapter 18: Electric Charge and Electric Field
    • 18.1: Static Electricity and Charge: Conservation of Charge (3)
    • 18.2: Conductors and Insulators (4)
    • 18.3: Coulomb's Law (8)
    • 18.4: Electric Field: Concept of a Field Revisited (5)
    • 18.5: Electric Field Lines: Multiple Charges
    • 18.6: Electric Forces in Biology
    • 18.7: Conductors and Electric Fields in Static Equilibrium (6)
    • 18.8: Applications of Electrostatics (9)
    • 18: Problems (60)

  • Chapter 19: Electric Potential and Electric Field
    • 19.1: Electric Potential Energy: Potential Difference (7)
    • 19.2: Electric Potential in a Uniform Electric Field (6)
    • 19.3: Electrical Potential Due to a Point Change (6)
    • 19.4: Equipotential Lines (1)
    • 19.5: Capacitors and Dielectrics (5)
    • 19.6: Capacitors in Series and Parallel (4)
    • 19.7: Energy Stored in Capacitors (6)
    • 19: Problems (56)

  • Chapter 20: Electric Current, Resistance, and Ohm's Law
    • 20.1: Current (8)
    • 20.2: Ohm's Law: Resistance and Simple Circuits (5)
    • 20.3: Resistance and Resistivity (7)
    • 20.4: Electric Power and Energy (8)
    • 20.5: Alternating Current versus Direct Current (7)
    • 20.6: Electric Hazards and the Human Body (6)
    • 20.7: Nerve Conduction–Electrocardiograms
    • 20: Problems (54)

  • Chapter 21: Circuits and DC Instruments
    • 21.1: Resistors in Series and Parallel (7)
    • 21.2: Electromotive Force: Terminal Voltage (8)
    • 21.3: Kirchhoff's Rules (4)
    • 21.4: DC Voltmeters and Ammeters (7)
    • 21.5: Null Measurements (5)
    • 21.6: DC Circuits Containing Resistors and Capacitors (6)
    • 21: Problems (62)

  • Chapter 22: Magnetism
    • 22.1: Magnets
    • 22.2: Ferromagnets and Electromagnets
    • 22.3: Magnetic Fields and Magnetic Field Lines
    • 22.4: Magnetic Field Strength: Force on a Moving Charge in a Magnetic Field (6)
    • 22.5: Force on a Moving Charge in a Magnetic Field: Examples and Applications (6)
    • 22.6: The Hall Effect (7)
    • 22.7: Magnetic Force on a Current-Carrying Conductor (7)
    • 22.8: Torque on a Current Loop: Motors and Meters (4)
    • 22.9: Magnetic Fields Produced by Currents: Ampere's Law
    • 22.10: Magnetic Force between Two Parallel Conductors (5)
    • 22.11: More Applications of Magnetism (10)
    • 22: Problems (65)

  • Chapter 23: Electromagnetic Induction, AC Circuits, and Electrical Technologies
    • 23.1: Induced Emf and Magnetic Flux
    • 23.2: Faraday's Law of Induction: Lenz's Law (5)
    • 23.3: Motional Emf (3)
    • 23.4: Eddy Currents and Magnetic Damping (1)
    • 23.5: Electric Generators (5)
    • 23.6: Back Emf (4)
    • 23.7: Transformers (4)
    • 23.8: Electrical Safety: Systems and Devices (1)
    • 23.9: Inductance (6)
    • 23.10: RL Circuits (6)
    • 23.11: Reactance, Inductive and Capacitive (5)
    • 23.12: RLC Series AC Circuits (6)
    • 23: Problems (64)

  • Chapter 24: Electromagnetic Waves
    • 24.1: Maxwell's Equations: Electromagnetic Waves Predicted and Observed
    • 24.2: Production of Electromagnetic Waves (2)
    • 24.3: The Electromagnetic Spectrum (14)
    • 24.4: Energy in Electromagnetic Waves (11)
    • 24: Problems (48)

  • Chapter 25: Geometric Optics
    • 25.1: The Ray Aspect of Light (1)
    • 25.2: The Law of Reflection
    • 25.3: The Law of Refraction (8)
    • 25.4: Total Internal Reflection (5)
    • 25.5: Dispersion: The Rainbow and Prisms (5)
    • 25.6: Image Formation by Lenses (11)
    • 25.7: Image Formation by Mirrors (7)
    • 25: Problems (60)

  • Chapter 26: Vision and Optical Instruments
    • 26.1: Physics of the Eye (5)
    • 26.2: Vision Correction (10)
    • 26.3: Color and Color Vision
    • 26.4: Microscopes (3)
    • 26.5: Telescopes (4)
    • 26.6: Aberrations (2)
    • 26: Problems (54)

  • Chapter 27: Wave Optics
    • 27.1: The Wave Aspect of Light: Interference (3)
    • 27.2: Huygen's Principle: Diffraction
    • 27.3: Young's Double Slit Experiment (8)
    • 27.4: Multiple Slit Diffraction (8)
    • 27.5: Single Slit Diffraction (7)
    • 27.6: Limits of Resolution: The Rayleigh Criterion (5)
    • 27.7: Thin Film Interference (5)
    • 27.8: Polarization (5)
    • 27.9: *Extended Topic* Microscopy Enhanced by the Wave Characteristics of Light
    • 27: Problems (61)

  • Chapter 28: Special Relativity
    • 28.1: Einstein's Postulates
    • 28.2: Simultaneity and Time Dilation (5)
    • 28.3: Length Contraction (4)
    • 28.4: Relativistic Addition of Velocities (9)
    • 28.5: Relativistic Momentum (6)
    • 28.6: Relativistic Energy (9)
    • 28: Problems (28)

  • Chapter 29: Introduction to Quantum Physics
    • 29.1: Quantization of Energy (3)
    • 29.2: The Photoelectric Effect (7)
    • 29.3: Photon Energies and the Electromagnetic Spectrum (7)
    • 29.4: Photon Momentum (6)
    • 29.5: The Particle-Wave Duality
    • 29.6: The Wave Nature of Matter (7)
    • 29.7: Probability: The Heisenberg Uncertainty Principle (5)
    • 29.8: The Particle-Wave Duality Reviewed (4)
    • 29: Problems (40)

  • Chapter 30: Atomic Physics
    • 30.1: Discovery of the Atom (1)
    • 30.2: Discovery of the Parts of the Atom: Electrons and Nuclei (3)
    • 30.3: Bohr's Theory of the Hydrogen Atom (9)
    • 30.4: X-Rays: Atomic Origins and Applications (5)
    • 30.5: Applications of Atomic Excitations and De-Excitations (3)
    • 30.6: The Wave Nature of Matter Causes Quantization
    • 30.7: Patterns in Spectra Reveal More Quantization
    • 30.8: Quantum Numbers and Rules (6)
    • 30.9: The Pauli Exclusion Principle (6)
    • 30: Problems (40)

  • Chapter 31: Radioactivity and Nuclear Physics
    • 31.1: Nuclear Radioactivity
    • 31.2: Radiation Detection and Detectors (4)
    • 31.3: Substructure of the Nucleus (5)
    • 31.4: Nuclear Decay and Conservation Laws (8)
    • 31.5: Half-Life and Activity (8)
    • 31.6: Binding Energy (4)
    • 31.7: Tunneling (3)
    • 31: Problems (36)

  • Chapter 32: Medical Applications of Nuclear Physics
    • 32.1: Medical Imaging and Diagnostics (4)
    • 32.2: Biological Effects of Ionizing Radiation (4)
    • 32.3: Therapeutic Uses of Ionizing Radiation (7)
    • 32.4: Food Irradiation
    • 32.5: Fusion (4)
    • 32.6: Fission (4)
    • 32.7: Nuclear Weapons (8)
    • 32: Problems (42)

  • Chapter 33: Particle Physics
    • 33.1: The Yukawa Particle and the Heinsenberg Uncertainty Principle Revisited (2)
    • 33.2: The Four Basic Forces (1)
    • 33.3: Accelerators Create Matter from Energy (6)
    • 33.4: Particles, Patterns, and Conservation Laws (4)
    • 33.5: Quarks: Is That All There Is? (6)
    • 33.6: GUTs: The Unification of Forces (6)
    • 33: Problems (28)

  • Chapter 34: Frontiers of Physics
    • 34.1: Cosmology and Particle Physics (14)
    • 34.2: General Relativity and Quantum Gravity (3)
    • 34.3: Superstrings (1)
    • 34.4: Dark Matter and Closure (3)
    • 34.5: Complexity and Chaos
    • 34.6: High-temperature Superconductors (1)
    • 34.7: Some Questions We Know to Ask
    • 34: Problems (22)


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Group Quantity Questions
Chapter 1: Introduction: The Nature of Science and Physics
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Chapter 2: Kinematics
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Chapter 3: Two-Dimensional Kinematics
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Chapter 4: Dynamics: Force and Newton's Laws of Motion
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Chapter 5: Further Applications of Newton's Laws: Friction, Drag, and Elasticity
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Chapter 6: Uniform Circular Motion and Gravitation
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Chapter 7: Work, Energy, and Energy Resources
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7.8 8 042.XP 047 048 049 051 053 056 057
Chapter 8: Linear Momentum and Collisions
8.P 61 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.Tutorial.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.Tutorial.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.Tutorial.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.WA 051.WA 052.WA 053.WA 054.WA 055.WA 056.Tutorial.WA 057.WA 058.WA 059.WA 060.WA 061.WA
8.1 4 001 002 004 005
8.2 7 008 012 016 016.XP 018 020 060.XP
8.3 3 023 027 057.XP
8.4 3 029 030 059.XP
8.5 6 031 032 034 035 039 043
8.6 3 047 050 052
8.7 6 054 055 056 058 059 062.XP
Chapter 9: Statics and Torque
9.P 46 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.Tutorial.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.Tutorial.WA 019.Tutorial.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.Tutorial.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA
9.2 3 001 002 003
9.3 9 006 007 009 011 012 012.XP 013.XP 014 015
9.4 2 017 021
9.5 8 006.XP 019 021 024 025 025.XP 030.XP 031.XP
9.6 8 027 028 030 031 032 034 035 037
Chapter 10: Rotational Motion and Angular Momentum
10.P 60 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.Tutorial.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.Tutorial.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.Tutorial.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.Tutorial.WA 047.WA 048.WA 049.WA 050.WA 051.WA 052.Tutorial.WA 053.WA 054.WA 055.WA 056.WA 057.WA 058.Tutorial.WA 059.WA 060.WA
10.1 3 001 002 003
10.2 4 002.XP 005 006 009
10.3 5 011 012 013 015 016
10.4 7 022 023 024 025 027 030 034
10.5 5 038 039 041 045 046
10.6 2 045 046
10.7 1 048
Chapter 11: Fluid Statics
11.P 46 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.Tutorial.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.Tutorial.WA 019.WA 020.WA 021.WA 022.WA 022WA 023.WA 024.Tutorial.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.Tutorial.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA
11.2 5 001 004 005 006 008
11.3 4 011 012 017 020.XP
11.4 3 015 021 022
11.5 3 025 026 027
11.6 4 029 032 033 035
11.7 8 037 038 039 043 044 045 047 053
11.8 5 054 061 062 065 066
11.9 10 068 069 070 071 075 076 077 078.XP 081 085
Chapter 12: Fluid Dynamics and Its Biological and Medical Applications
12.P 40 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 006.XP 007.WA 008.WA 009.WA 010.WA 011.WA 012.Tutorial.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.Tutorial.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.Tutorial.WA 035.WA 036.WA 037.WA 038.WA 039.WA
12.1 7 001 004 006 010 013 015 018.XP
12.2 5 018 019 021 023 025
12.3 3 026 027 028
12.4 11 029 030 031 032 034 036 044 045 046 047 048
12.5 3 054 056 059
12.7 3 064 065 066
Chapter 13: Temperature, Kinetic Theory, and the Gas Laws
13.P 55 001.WA 002.WA 003.WA 004.Tutorial.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.Tutorial.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.Tutorial.WA 032.WA 033.WA 034.WA 035.WA 036.WA 037.Tutorial.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.WA 049.Tutorial.WA 050.WA 051.WA 052.WA 053.WA 054.WA 055.WA
13.1 5 001 002 003 004 008
13.2 7 009 010 011 012 016 017 019
13.3 9 022 022.XP 024 028 029 031 032 033 034
13.4 5 039 040 041 044 045
13.6 9 051 052 055 056 057 059 061 063 064
Chapter 14: Heat and Heat Transfer Methods
14.P 52 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.Tutorial.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.Tutorial.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.WA 036.WA 037.WA 038.Tutorial.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.Tutorial.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.Tutorial.WA 051.WA 052.WA
14.2 6 001 003 004 005 010 014.XP
14.3 11 010.XP 011 012 013 014 016 018 022 024 026 028
14.5 7 030 031 033 034 036 037 039
14.6 7 045 047 048 049 051 054 064.XP
14.7 6 055 057 059 060 062 064
Chapter 15: Thermodynamics
15.P 44 001.WA 002.WA 003.WA 004.WA 005.WA 006.Tutorial.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.Tutorial.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.Tutorial.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.WA 036.Tutorial.WA 037.WA 038.WA 039.Tutorial.WA 040.WA 041.WA 042.WA 043.WA 044.WA
15.1 7 001 002 003 004 005 008 066.XP
15.2 4 010 011 013 014
15.3 7 020 021 022 024 025 064.XP 065.XP
15.4 4 028 031 032 033
15.5 5 037 038 041 043 053
15.6 6 048 050 052 054 055 057
15.7 2 058 060
Chapter 16: Oscillatory Motion and Waves
16.P 66 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.Tutorial.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.Tutorial.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.Tutorial.WA 031.WA 032.WA 033.WA 034.WA 035.WA 036.Tutorial.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.Tutorial.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.Tutorial.WA 049.WA 050.WA 051.WA 052.WA 053.WA 054.Tutorial.WA 055.WA 056.WA 057.WA 058.WA 059.WA 060.WA 061.Tutorial.WA 062.WA 063.WA 064.WA 065.WA 066.WA
16.1 8 001 002 003 006 006.XP 008.XP 052.XP 088.XP
16.2 3 008 009 086.XP
16.3 8 013 015 019 020 021 040.XP 056.XP 089.XP
16.4 5 025 027 029 030 034
16.5 2 035 036
16.6 4 037 038 040 049.XP
16.8 3 042 043 044
16.9 5 047 048 050 052 053
16.10 2 058 060
16.11 4 063 068 069 071
Chapter 17: Physics of Hearing
17.P 60 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.Tutorial.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.Tutorial.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.Tutorial.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.Tutorial.WA 048.WA 049.WA 050.WA 051.WA 052.WA 053.WA 054.WA 055.Tutorial.WA 056.WA 057.WA 058.WA 059.WA 060.WA
17.2 6 002 003 004 006 008 010
17.3 10 012 013 016 019 020 022 023 024 026 028
17.4 6 030 031 032 034 036 037
17.5 9 038 040 041 043 044 046 047 052 054
17.6 7 056 058 060.XP 063 066 068 070
17.7 7 074 078 079.XP 080 080.XP 082 084
Chapter 18: Electric Charge and Electric Field
18.P 60 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.Tutorial.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.Tutorial.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.Tutorial.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.WA 051.WA 052.WA 053.WA 054.WA 055.WA 056.Tutorial.WA 057.WA 058.WA 059.Tutorial.WA 060.WA
18.1 3 001 002 004
18.2 4 006 007 008 009
18.3 8 010 012 013 014 020 022 024 025
18.4 5 027 028 029 030 036.XP
18.7 6 041 042 045 046 047 049
18.8 9 051 053 055 058 060 061 061.XP 062 064
Chapter 19: Electric Potential and Electric Field
19.P 56 001.WA 002.WA 003.WA 004.Tutorial.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.Tutorial.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.Tutorial.WA 030.WA 031.WA 032.WA 033.Tutorial.WA 034.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.WA 051.Tutorial.WA 052.WA 053.WA 054.WA 055.WA 056.Tutorial.WA
19.1 7 001 003 004 004.XP 008 008.XP 011.XP
19.2 6 014 016 018 020 022 023
19.3 6 024 027 028 030 032 033
19.4 1 044
19.5 5 046 047 051 053 064.XP
19.6 4 057 058 060 061
19.7 6 058.XP 060.XP 064 065 066.XP 067.XP
Chapter 20: Electric Current, Resistance, and Ohm's Law
20.P 54 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.Tutorial.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.Tutorial.WA 018.WA 019.WA 020.Tutorial.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.Tutorial.WA 032.WA 033.WA 034.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.WA 051.WA 052.WA 053.Tutorial.WA 054.WA
20.1 8 001 002 003 006 009 010 016 017
20.2 5 018 019 020 021 023
20.3 7 024 025 026 028 032 036 052.XP
20.4 8 040 041 042 049 055 060 064 068
20.5 7 072 074 076 078 079 080 082
20.6 6 085 086 087 088 091 092
Chapter 21: Circuits and DC Instruments
21.P 62 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.Tutorial.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.Tutorial.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.Tutorial.WA 036.Tutorial.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.Tutorial.WA 046.WA 047.Tutorial.WA 048.WA 049.WA 050.WA 051.WA 052.WA 053.WA 054.WA 055.WA 056.WA 057.WA 058.Tutorial.WA 059.WA 060.WA 061.WA 062.WA
21.1 7 001 002 003 004.XP 005 009 010
21.2 8 016 017 018 018.XP 019 021 023 025
21.3 4 032 036 037 040
21.4 7 042 043 048 049 050 051 052
21.5 5 057 058 060 061 062
21.6 6 065 066 068 071 072 075
Chapter 22: Magnetism
22.P 65 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.Tutorial.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.Tutorial.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.WA 036.Tutorial.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.WA 051.WA 052.Tutorial.WA 053.WA 054.WA 055.WA 056.WA 057.WA 058.WA 059.Tutorial.WA 060.WA 061.WA 062.WA 063.WA 064.WA 065.WA
22.4 6 001 003 005 007 007.XP 010
22.5 6 012 013 014 017 018 020
22.6 7 022 023 025 026 027 027.XP 030
22.7 7 031 032 033 036 038 038.XP 039
22.8 4 042 044 046 047
22.10 5 051 052 053 055 056
22.11 10 059 060 061 062 064 066 067 069 071 072
Chapter 23: Electromagnetic Induction, AC Circuits, and Electrical Technologies
23.P 64 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.Tutorial.WA 009.Tutorial.WA 010.WA 011.Tutorial.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.Tutorial.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.Tutorial.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.Tutorial.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.WA 051.WA 052.WA 053.WA 054.WA 055.WA 056.WA 057.WA 058.Tutorial.WA 059.WA 060.WA 061.Tutorial.WA 062.WA 063.WA 064.WA
23.2 5 003 005 008.XP 011 012
23.3 3 019 020 023
23.4 1 027
23.5 5 028 029 030 032 036
23.6 4 039 041 042 043
23.7 4 044 047 049 050
23.8 1 054
23.9 6 055 056 057 062 064 067
23.10 6 066 069 070 074 076 078
23.11 5 079 080 087 088 089
23.12 6 092 098 099 100 101 105
Chapter 24: Electromagnetic Waves
24.P 48 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.Tutorial.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.Tutorial.WA 033.WA 034.Tutorial.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.Tutorial.WA 046.WA 047.WA 048.Tutorial.WA
24.2 2 003 004
24.3 14 006 008 010 011 012 013 014 019 020 021 022 024 026 027
24.4 11 030 031 032 033 035 036 039 040 042 043 045
Chapter 25: Geometric Optics
25.P 60 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.Tutorial.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.Tutorial.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.Tutorial.WA 032.WA 033.WA 034.WA 035.WA 036.WA 037.WA 038.WA 039.Tutorial.WA 040.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.Tutorial.WA 051.WA 052.WA 053.WA 054.WA 055.WA 056.WA 057.WA 058.WA 059.WA 060.WA
25.1 1 001
25.3 8 006 007 008 010 011 012 013 014
25.4 5 022 023 024 025 026
25.5 5 028 029 030 032 034
25.6 11 036 037 038 039 042 043 045 046 048 050 051
25.7 7 053 054 055 055.XP 058 059 060.XP
Chapter 26: Vision and Optical Instruments
26.P 54 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.Tutorial.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.Tutorial.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.Tutorial.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.WA 048.WA 049.WA 050.WA 051.WA 052.WA 053.WA 054.WA
26.1 5 001 002 003 004 005
26.2 10 006 007 009 011 012 015 016 017 022 024
26.4 3 026 027 028
26.5 4 033 035 036 037
26.6 2 104.XP 106.XP
Chapter 27: Wave Optics
27.P 61 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.Tutorial.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.WA 034.WA 035.WA 036.Tutorial.WA 037.WA 038.WA 039.WA 040.Tutorial.WA 041.WA 042.WA 043.WA 044.WA 045.WA 046.WA 047.Tutorial.WA 048.WA 049.WA 050.WA 051.WA 052.WA 053.WA 054.Tutorial.WA 055.WA 056.WA 057.WA 058.WA 059.WA 060.WA 061.WA
27.1 3 002 003 005
27.3 8 006 007 008 009 011 013 015 018
27.4 8 021 022 023 024 028 029 030 039
27.5 7 043 044 045 046 049 051 056
27.6 5 057 059 061 063 064
27.7 5 072 074 076 078 079
27.8 5 086 087 088 091 095
Chapter 28: Special Relativity
28.P 28 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.Tutorial.WA 007.WA 008.WA 009.Tutorial.WA 010.WA 011.WA 012.WA 013.Tutorial.WA 014.WA 015.WA 016.Tutorial.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA
28.2 5 002 003 004 005 007
28.3 4 012 013 014.XP 015
28.4 9 020 021 022 025 026 027 028 031 034
28.5 6 035 036 037 039 040 041
28.6 9 047 049 053 054 057 061 064 066 067
Chapter 29: Introduction to Quantum Physics
29.P 40 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.Tutorial.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.Tutorial.WA 025.WA 026.WA 027.Tutorial.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.Tutorial.WA 034.WA 035.Tutorial.WA 036.WA 037.WA 038.WA 039.WA 040.WA
29.1 3 001 002 003
29.2 7 008 009 010 012 014 015 016
29.3 7 020 021 029 031 033 034 036
29.4 6 039 040 041 042 044 045
29.6 7 049 050 051 052 053 056 060
29.7 5 063 064 066 067 069
29.8 4 073 075 076 077
Chapter 30: Atomic Physics
30.P 40 001.WA 002.WA 003.WA 004.WA 005.WA 006.Tutorial.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.Tutorial.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.Tutorial.WA 030.WA 031.Tutorial.WA 032.WA 033.WA 034.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.WA
30.1 1 003
30.2 3 004 005 006
30.3 9 011 012 013 018 018.XP 019 021 022 024.XP
30.4 5 025 026 027 028 029
30.5 3 031 032 034
30.8 6 035 036 037 039 040 043
30.9 6 045 048 049 054 056 065
Chapter 31: Radioactivity and Nuclear Physics
31.P 36 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.Tutorial.WA 009.WA 010.Tutorial.WA 011.WA 012.WA 013.WA 014.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.Tutorial.WA 022.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.Tutorial.WA 032.WA 033.WA 034.WA 035.WA 036.WA
31.2 4 001 002 004 075.XP
31.3 5 006 008 014 015 016
31.4 8 004.XP 017 019 021 034 039 041 042
31.5 8 045 048 050 051 053 055 060 066
31.6 4 070 072 073 074
31.7 3 078 079 081
Chapter 32: Medical Applications of Nuclear Physics
32.P 42 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA.Tutorial 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.Tutorial.WA 023.WA 024.WA 025.WA 026.WA 027.WA 028.WA 029.WA 030.WA 031.WA 032.WA 033.Tutorial.WA 034.WA 035.WA 036.WA 037.WA 038.WA 039.WA 040.WA 041.WA 042.WA 043.WA
32.1 4 002 004 005 007
32.2 4 008 010 011 041.XP
32.3 7 016 017 018 020 022 059.XP 061.XP
32.5 4 030 034 035 039
32.6 4 043 044 049 050
32.7 8 051 052 054 055 056 058 060 061
Chapter 33: Particle Physics
33.P 28 001.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.Tutorial.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.Tutorial.WA 015.WA 016.WA 017.WA 018.WA 019.WA 020.WA 021.WA 022.WA 023.WA 024.Tutorial.WA 025.WA 026.WA 027.WA 028.WA
33.1 2 001 002
33.2 1 005
33.3 6 006 007 008 009 010 012
33.4 4 014 014.XP 016 020
33.5 6 023 028 038 039 040 041
33.6 6 043 044 045 046 048 050
Chapter 34: Frontiers of Physics
34.P 22 001.Tutorial.WA 002.WA 003.WA 004.WA 005.WA 006.WA 007.WA 008.WA 009.WA 010.WA 011.WA 012.WA 013.WA 014.WA 015.Tutorial.WA 016.WA 017.WA 018.Tutorial.WA 019.WA 020.WA 021.WA 022.WA
34.1 14 001 002 004 005 006 007 009 010 011 013 014 017 019 020
34.2 3 022 023 024
34.3 1 026
34.4 3 028 029 030
34.6 1 031
Total 2885 (2)