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Standards Of Length, Mass, And Time, Chapter 2.1 - Position, Velocity, And Speed Of A Particle, Chapter 2.2 - Instantaneous Velocity And Speed, Chapter 2.7 - Analysis Model: Particle Under Constant Acceleration, Chapter 3.2 - Vector And Scalar Quantities, Chapter 3.4 - Components Of Vector And Unit Vectors, Chapter 4.1 - The Position, Velocity, And Acceleration Vectors, Chapter 4.4 - Analysis Model: Particle In Uniform Circular Motion, Chapter 4.5 - Tangential And Radial Acceleration, Chapter 5.2 - Newton's First Law And Inertial Frames, Chapter 5.5 - The Gravitational Force And Weight, Chapter 6 - Circular Motion And Other Applications Of Newton's Laws, Chapter 6.1 - Extending The Particle In Uniform Circular Motion Model, Chapter 6.3 - Motion In Accelerated Frames, Chapter 6.4 - Motion In The Presence Of Resistive Forces, Chapter 7.2 - Work Done By A Constant Force, Chapter 7.3 - The Scalar Product Of Two Vectors, Chapter 7.4 - Work Done By A Varying Force, Chapter 7.5 - Kinetic Energy And The Work-kinetic Energy Theorem, Chapter 7.6 - Potential Energy Of A System, Chapter 7.8 - Relationship Between Conservative Forces And Potential Energy, Chapter 8.1 - Analysis Model: Nonisolated System(energy), Chapter 8.2 - Analysis Model: Isolated System(energy), Chapter 8.3 - Situations Involving Kinetic Friction, Chapter 9 - Linear Momentum And Collisions, Chapter 9.3 - Analsis Model: Nonisolated System(momentum), Chapter 9.4 - Collisions In One Dimension, Chapter 10 - Rotation Of A Rigid Object About A Fixed Axis, Chapter 10.1 - Angular Position, Velocity, And Acceleration, Chapter 10.2 - Analysis Model: Rigid Object Under Constant Angular Acceleration, Chapter 10.3 - Angular And Translational Quantities, Chapter 10.5 - Analysis Model: Rigid Object Under A Net Torque, Chapter 10.9 - Rolling Motion Of A Right Object, Chapter 11.1 - The Vector Product And Torque, Chapter 11.2 - Analysis Model: Nonisolated System(angular Momentum), Chapter 11.3 - Angular Momentum Of A Rotating Rigid Object, Chapter 11.4 - Analysis Model: Isolated System(angular Momentum), Chapter 12 - Static Equilibrium And Elasticity, Chapter 12.1 - Analysis Model: Rigid Objects In Equilibrium, Chapter 12.2 - More On The Center Of Gravity, Chapter 12.4 - Elastic Properties Of Solids, Chapter 13.1 - Newton's Law Of Universal Gravitation, Chapter 13.2 - Free-fall Acceleration And The Gravitational Force, Chapter 13.4 - Kepler's Laws And The Motion Of Planets, Chapter 13.6 - Energy Considerations In Planetary And Satellite Motion, Chapter 14.2 - Variation Of Pressure With Depth, Chapter 14.4 - Buoyant Forces And Archimedes's Principle, Chapter 15.1 - Motion Of An Object Attached To A Spring, Chapter 15.2 - Analysis Model: Particle In Simple Harmonic Motion, Chapter 15.4 - Comparing Simple Harmonic Motion With Uniform Circular Motion, Chapter 16.1 - Propagation Of A Disturbance, Chapter 16.2 - Analysis Model: Traveling Wave, Chapter 16.3 - The Speed Of Waves On String, Chapter 16.4 - Rate Of Energy Transfer By Sinusoidal Waves On Strings, Chapter 17 - Superposition And Standing Waves, Chapter 17.1 - Analysis Model: Waves In Interference, Chapter 17.4 - Analysis Model: Waves Under Boundary Conditions, Chapter 17.6 - Standing Waves In Air Columns, Chapter 18.1 - Temperature And The Zeroth Law Of Thermodynamics, Chapter 18.3 - The Constant-volume Gas Thermometer And The Absolute Temperature Scale, Chapter 18.4 - Thermal Expansion Of Solids And Liquids, Chapter 18.5 - Macroscopic Description Of An Ideal Gas, Chapter 19 - The First Law Of Thermodynamics, Chapter 19.2 - Specific Heat And Calorimetry, Chapter 19.5 - The First Law Of Thermodynamics, Chapter 19.6 - Energy Transfer Mechanisms In Thermal Processes, Chapter 20.1 - Molecular Model Of An Ideal Gas, Chapter 20.2 - Molar Specific Heat Of An Ideal Gas, Chapter 20.3 - The Equipartition Of Energy, Chapter 21 - Heat Engines, Entropy, And The Second Law Of Thermodynamics, Chapter 21.1 - Heat Engines, Entropy, And The Second Law Of Thermodynamics, Chapter 21.2 - Heat Pumps And Refrigerators, Chapter 21.7 - Entropy In Thermodynamic Systems, Chapter 22.1 - Properties Of Electric Charges, Chapter 22.2 - Charging Objects By Induction, Chapter 22.4 - Analysis Model: Particle In A Field(electric), Chapter 23 - Continuous Charge Distributions And Gauss's Law, Chapter 24.1 - Electric Potential And Potential Difference, Chapter 24.2 - Potential Difference In A Uniform Electric Field, Chapter 24.3 - Electric Potential And Potential Energy Due To Point Charges, Chapter 24.4 - Obtaining The Value Of The Electric Field From The Electric Potential, Chapter 25.3 - Combinations Of Capacitors, Chapter 25.4 - Energy Stored In A Charged Capacitor, Chapter 25.5 - Capacitors With Dielectrics, Chapter 26.4 - Resistance And Temperature, Chapter 27.2 - Resistors In Series And Parallel, Chapter 28.1 - Analysis Model: Particle In A Field(magnetic), Chapter 28.2 - Motion Of Charged Particle In A Uniform Magnetci Field, Chapter 28.4 - Magnetci Force Acting On A Current-carrying Conductor, Chapter 28.5 - Torque On A Current Loop In A Uniform Magnetic Field, Chapter 29 - Sources Of The Magnetic Field, Chapter 29.2 - The Magnetic Force Between Two Parallel Conductors, Chapter 29.4 - The Magnetic Field Of A Solenoid, Chapter 30.1 - Faraday's Law Of Induction, Chapter 31.1 - Self-induction And Inductance, Chapter 31.3 - Energy In A Magnetic Field, Chapter 31.5 - Oscillations In Lc Circuit, Chapter 32 - Alternating-current Circuits, Chapter 32.2 - Resistors In An Ac Circuit, Chapter 32.3 - Inductors In An Ac Circuit, Chapter 32.4 - Capacitors In An Ac Circuit, Chapter 32.7 - Resonance In A Series Rlc Circuit, Chapter 33.1 - Displacement Current And The General Form Of Ampere's Law, Chapter 33.3 - Plane Electromagnetic Waves, Chapter 33.5 - Momentum And Radiation Pressure, Chapter 33.6 - Production Of Electromagnetic Waves By An Antenna, Chapter 33.7 - The Spectrum Of Electromagnetic Waves, Chapter 34 - The Nature Of Light And The Principles Of Ray Optics, Chapter 34.3 - Analysis Model: Wave Under Reflection, Chapter 34.4 - Analysis Model: Wave Under Refraction, Chapter 35.1 - Images Formed By Flat Mirrors, Chapter 35.2 - Images Formed By Sphericalmirrors, Chapter 35.3 - Images Formed By Refraction, Chapter 35.4 - Images Formed By Thin Lenses, Chapter 36.2 - Analysis Model:waves In Interference, Chapter 36.3 - Intensity Distribution Of The Double-slit Interference Pattern, Chapter 36.5 - Interference In Thin Films, Chapter 37 - Diffraction Patterns And Polarization, Chapter 37.2 - Diffraction Patterns Firom Narrow Slits, Chapter 37.3 - Resolution Of Single-slit And Circular Apertures, Chapter 37.6 - Polar Zation Of Lightwaves, Chapter 38.1 - The Princ Ple Of Ga Lilean Relativity, Chapter 38.4 - Consequences Of The Special Theory Of Reativity, Chapter 38.6 - The Lorentz Velocity Transformation Equations.