Fundamentals of Physics 10th edition

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• Chapter 1: Measurement
  • 1.1: Measuring Things, Including Lengths
  • 1.2: Time
  • 1.3: Mass
  • 1: Additional Problems
  • 1: Extra Problems
  • 1: Simulation Problems
  • 1: Symbolic Questions
  • 1: Test Bank Questions
  
  
• Chapter 2: Motion Along a Straight Line
  • 2: Concept Questions
  • 2.1: Position, Displacement, and Average Velocity
  • 2.2: Instantaneous Velocity and Speed
  • 2.3: Acceleration
  • 2.4: Constant Acceleration
  • 2.5: Free-Fall Acceleration
  • 2.6: Graphical Integration in Motion Analysis
  • 2: Additional Problems
  • 2: Extra Problems
  • 2: Simulation Problems
  • 2: Symbolic Questions
  • 2: Test Bank Questions
  
  
• Chapter 3: Vectors
  • 3: Concept Questions
  • 3.1: Vectors and Their Components
  • 3.2: Unit Vectors, Adding Vectors by Components
  • 3.3: Multiplying Vectors
  • 3: Additional Problems
  • 3: Extra Problems
  • 3: Simulation Problems
  • 3: Symbolic Questions
  • 3: Test Bank Questions
  
  
• Chapter 4: Motion in Two and Three Dimensions
  • 4: Concept Questions
  • 4.1: Position and Displacement
  • 4.2: Average Velocity and Instantaneous Velocity
  • 4.3: Average Acceleration and Instantaneous Acceleration
  • 4.4: Projectile Motion
  • 4.5: Uniform Circular Motion
  • 4.6: Relative Motion in One Dimension
  • 4.7: Relative Motion in Two Dimensions
  • 4: Additional Problems
  • 4: Extra Problems
  • 4: Simulation Problems
  • 4: Symbolic Questions
  • 4: Test Bank Questions
  
  
• Chapter 5: Force and Motion–I
  • 5: Concept Questions
  • 5.1: Newton's First and Second Laws
  • 5.2: Some Particular Forces
  • 5.3: Applying Newton's Laws
  • 5: Additional Problems
  • 5: Extra Problems
  • 5: Simulation Problems
  • 5: Symbolic Questions
  • 5: Test Bank Questions
  
  
• Chapter 6: Force and Motion–II
  • 6: Concept Questions
  • 6.1: Friction
  • 6.2: The Drag Force and Terminal Speed
  • 6.3: Uniform Circular Motion
  • 6: Additional Problems
  • 6: Extra Problems
  • 6: Simulation Problems
  • 6: Symbolic Questions
  • 6: Test Bank Questions
  
  
• Chapter 7: Kinetic Energy and Work
  • 7: Concept Questions
  • 7.1: Kinetic Energy
  • 7.2: Work and Kinetic Energy
  • 7.3: Work Done by the Gravitational Force
  • 7.4: Work Done by a Spring Force
  • 7.5: Work Done by a General Variable Force
  • 7.6: Power
  • 7: Additional Problems
  • 7: Extra Problems
  • 7: Simulation Problems
  • 7: Symbolic Questions
  • 7: Test Bank Questions
  
  
• Chapter 8: Potential Energy and Conservation of Energy
  • 8: Concept Questions
  • 8.1: Potential Energy
  • 8.2: Conservation of Mechanical Energy
  • 8.3: Reading a Potential Energy Curve
  • 8.4: Work Done on a System by an External Force
  • 8.5: Conservation of Energy
  • 8: Additional Problems
  • 8: Extra Problems
  • 8: Simulation Problems
  • 8: Symbolic Questions
  • 8: Test Bank Questions
  
  
• Chapter 9: Center of Mass and Linear Momentum
  • 9: Concept Questions
  • 9.1: Center of Mass
  • 9.2: Newton's Second Law for a System of Particles
  • 9.3: Linear Momentum
  • 9.4: Collision and Impulse
  • 9.5: Conservation of Linear Momentum
  • 9.6: Momentum and Kinetic Energy in Collisions
  • 9.7: Elastic Collisions in One Dimension
  • 9.8: Collisions in Two Dimensions
  • 9.9: Systems with Varying Mass: A Rocket
  • 9: Additional Problems
  • 9: Extra Problems
  • 9: Simulation Problems
  • 9: Symbolic Questions
  • 9: Test Bank Questions
  
  
• Chapter 10: Rotation
  • 10: Concept Questions
  • 10.1: Rotational Variables
  • 10.2: Rotation with Constant Angular Acceleration
  • 10.3: Relating the Linear and Angular Variables
  • 10.4: Kinetic Energy of Rotation
  • 10.5: Calculating the Rotational Inertia
  • 10.6: Torque
  • 10.7: Newton's Second Law for Rotation
  • 10.8: Work and Rotational Kinetic Energy
  • 10: Additional Problems
  • 10: Extra Problems
  • 10: Simulation Problems
  • 10: Symbolic Questions
  • 10: Test Bank Questions
  
  
• Chapter 11: Rolling, Torque, and Angular Momentum
  • 11: Concept Questions
  • 11.1: Rolling as Translation and Rotation Combined
  • 11.2: Forces and Kinetic Energy of Rolling
  • 11.3: The Yo-Yo
  • 11.4: Torque Revisited
  • 11.5: Angular Momentum
  • 11.6: Newton's Second Law in Angular Form
  • 11.7: Angular Momentum of a Rigid Body
  • 11.8: Conservation of Angular Momentum
  • 11.9: Precession of a Gyroscope
  • 11: Additional Problems
  • 11: Extra Problems
  • 11: Simulation Problems
  • 11: Symbolic Questions
  • 11: Test Bank Questions
  
  
• Chapter 12: Equilibrium and Elasticity
  • 12: Concept Questions
  • 12.1: Equilibrium
  • 12.2: Some Examples of Static Equilibrium
  • 12.3: Elasticity
  • 12: Additional Problems
  • 12: Extra Problems
  • 12: Simulation Problems
  • 12: Symbolic Questions
  • 12: Test Bank Questions
  
  
• Chapter 13: Gravitation
  • 13: Concept Questions
  • 13.1: Newton's Law of Gravitation
  • 13.2: Gravitation and the Principle of Superposition
  • 13.3: Gravitation Near Earth's Surface
  • 13.4: Gravitation Inside Earth
  • 13.5: Gravitational Potential Energy
  • 13.6: Planets and Satellites: Kepler's Laws
  • 13.7: Satellites: Orbits and Energy
  • 13.8: Einstein and Gravitation
  • 13: Additional Problems
  • 13: Extra Problems
  • 13: Simulation Problems
  • 13: Symbolic Questions
  • 13: Test Bank Questions
  
  
• Chapter 14: Fluids
  • 14: Concept Questions
  • 14.1: Fluids, Density, and Pressure
  • 14.2: Fluids at Rest
  • 14.3: Measuring Pressure
  • 14.4: Pascal's Principle
  • 14.5: Archimedes' Principle
  • 14.6: The Equation of Continuity
  • 14.7: Bernoulli's Equation
  • 14: Additional Problems
  • 14: Extra Problems
  • 14: Simulation Problems
  • 14: Symbolic Questions
  • 14: Test Bank Questions
  
  
• Chapter 15: Oscillations
  • 15: Concept Questions
  • 15.1: Simple Harmonic Motion
  • 15.2: Energy in Simple Harmonic Motion
  • 15.3: An Angular Simple Harmonic Oscillator
  • 15.4: Pendulums, Circular Motion
  • 15.5: Damped Simple Harmonic Motion
  • 15.6: Forced Oscillations and Resonance
  • 15: Additional Problems
  • 15: Extra Problems
  • 15: Simulation Problems
  • 15: Symbolic Questions
  • 15: Test Bank Questions
  
  
• Chapter 16: Waves–I
  • 16: Concept Questions
  • 16.1: Transverse Waves
  • 16.2: Wave Speed on a Stretched String
  • 16.3: Energy and Power of a Wave Traveling Along a String
  • 16.4: The Wave Equation
  • 16.5: Interference of Waves
  • 16.6: Phasors
  • 16.7: Standing Waves and Resonance
  • 16: Additional Problems
  • 16: Extra Problems
  • 16: Simulation Problems
  • 16: Symbolic Questions
  • 16: Test Bank Questions
  
  
• Chapter 17: Waves–II
  • 17: Concept Questions
  • 17.1: Speed of Sound
  • 17.2: Traveling Sound Waves
  • 17.3: Interference
  • 17.4: Intensity and Sound Level
  • 17.5: Sources of Musical Sound
  • 17.6: Beats
  • 17.7: The Doppler Effect
  • 17.8: Supersonic Speeds, Shock Waves
  • 17: Additional Problems
  • 17: Extra Problems
  • 17: Simulation Problems
  • 17: Symbolic Questions
  • 17: Test Bank Questions
  
  
• Chapter 18: Temperature, Heat, and the First Law of Thermodynamics
  • 18: Concept Questions
  • 18.1: Temperature
  • 18.2: The Celsius and Fahrenheit Scales
  • 18.3: Thermal Expansion
  • 18.4: Absorption of Heat
  • 18.5: The First Law of Thermodynamics
  • 18.6: Heat Transfer Mechanisms
  • 18: Additional Problems
  • 18: Extra Problems
  • 18: Simulation Problems
  • 18: Symbolic Questions
  • 18: Test Bank Questions
  
  
• Chapter 19: The Kinetic Theory of Gases
  • 19: Concept Questions
  • 19.1: Avogadro's Number
  • 19.2: Ideal Gases
  • 19.3: Pressure, Temperature, and RMS Speed
  • 19.4: Translational Kinetic Energy
  • 19.5: Mean Free Path
  • 19.6: The Distribution of Molecular Speeds
  • 19.7: The Molar Specific Heats of an Ideal Gas
  • 19.8: Degrees of Freedom and Molar Specific Heats
  • 19.9: The Adiabatic Expansion of an Ideal Gas
  • 19: Additional Problems
  • 19: Extra Problems
  • 19: Simulation Problems
  • 19: Symbolic Questions
  • 19: Test Bank Questions
  
  
• Chapter 20: Entropy and the Second Law of Thermodynamics
  • 20: Concept Questions
  • 20.1: Entropy
  • 20.2: Entropy in the Real World: Engines
  • 20.3: Refrigerators and Real Engines
  • 20.4: A Statistical View of Entropy
  • 20: Additional Problems
  • 20: Extra Problems
  • 20: Simulation Problems
  • 20: Symbolic Questions
  • 20: Test Bank Questions
  
  
• Chapter 21: Coulomb's Law
  • 21: Concept Questions
  • 21.1: Coulomb's Law
  • 21.2: Charge Is Quantized
  • 21.3: Charge Is Conserved
  • 21: Additional Problems
  • 21: Extra Problems
  • 21: Simulation Problems
  • 21: Symbolic Questions
  • 21: Test Bank Questions
  
  
• Chapter 22: Electric Fields
  • 22: Concept Questions
  • 22.1: The Electric Field
  • 22.2: The Electric Field Due to a Charge Particle
  • 22.3: The Electric Field Due to a Dipole
  • 22.4: The Electric Field Due to a Line of Change
  • 22.5: The Electric Field Due to a Charged Disk
  • 22.6: A Point Charge in an Electric Field
  • 22.7: A Dipole in an Electric Field
  • 22: Additional Problems
  • 22: Extra Problems
  • 22: Simulation Problems
  • 22: Symbolic Questions
  • 22: Test Bank Questions
  
  
• Chapter 23: Gauss' Law
  • 23: Concept Questions
  • 23.1: Electric Flux
  • 23.2: Gauss' Law
  • 23.3: A Charged Isolated Conductor
  • 23.4: Applying Gauss' Law: Cylindrical Symmetry
  • 23.5: Applying Gauss' Law: Planar Symmetry
  • 23.6: Applying Gauss' Law: Spherical Symmetry
  • 23: Additional Problems
  • 23: Extra Problems
  • 23: Simulation Problems
  • 23: Symbolic Questions
  • 23: Test Bank Questions
  
  
• Chapter 24: Electric Potential
  • 24: Concept Questions
  • 24.1: Electric Potential
  • 24.2: Equipotential Surfaces and the Electric Field
  • 24.3: Potential Due to a Charged Particle
  • 24.4: Potential Due to an Electric Dipole
  • 24.5: Potential Due to a Continuous Charge Distribution
  • 24.6: Calculating the Field from the Potential
  • 24.7: Electric Potential Energy of a System of Charged Particles
  • 24.8: Potential of a Charged Isolated Conductor
  • 24: Additional Problems
  • 24: Extra Problems
  • 24: Simulation Problems
  • 24: Symbolic Questions
  • 24: Test Bank Questions
  
  
• Chapter 25: Capacitance
  • 25: Concept Questions
  • 25.1: Capacitance
  • 25.2: Calculating the Capacitance
  • 25.3: Capacitors in Parallel and in Series
  • 25.4: Energy Stored in an Electric Field
  • 25.5: Capacitor with a Dielectric
  • 25.6: Dielectrics and Gauss' Law
  • 25: Additional Problems
  • 25: Extra Problems
  • 25: Simulation Problems
  • 25: Symbolic Questions
  • 25: Test Bank Questions
  
  
• Chapter 26: Current and Resistance
  • 26: Concept Questions
  • 26.1: Electric Current
  • 26.2: Current Density
  • 26.3: Resistance and Resistivity
  • 26.4: Ohm's Law
  • 26.5: Power, Semiconductors, Superconductors
  • 26: Additional Problems
  • 26: Extra Problems
  • 26: Simulation Problems
  • 26: Symbolic Questions
  • 26: Test Bank Questions
  
  
• Chapter 27: Circuits
  • 27: Concept Questions
  • 27.1: Single-Loop Circuits
  • 27.2: Multiloop Circuits
  • 27.3: The Ammeter and the Voltmeter
  • 27.4: RC Circuits
  • 27: Additional Problems
  • 27: Extra Problems
  • 27: Simulation Problems
  • 27: Symbolic Questions
  • 27: Test Bank Questions
  
  
• Chapter 28: Magnetic Fields
  • 28: Concept Questions
  • 28.1: Magnetic Fields and the Definition of
  • 28.2: Crossed Fields: Discovery of the Electron
  • 28.3: Crossed Fields: The Hall Effect
  • 28.4: A Circulating Charged Particle
  • 28.5: Cyclotrons and Synchrotrons
  • 28.6: Magnetic Force on a Current-Carrying Wire
  • 28.7: Torque on a Current Loop
  • 28.8: The Magnetic Dipole Moment
  • 28: Additional Problems
  • 28: Extra Problems
  • 28: Simulation Problems
  • 28: Symbolic Questions
  • 28: Test Bank Questions
  
  
• Chapter 29: Magnetic Fields Due to Currents
  • 29: Concept Questions
  • 29.1: Magnetic Field Due to a Current
  • 29.2: Force Between Two Parallel Currents
  • 29.3: Ampere's Law
  • 29.4: Solenoids and Toroids
  • 29.5: A Current-Carrying Coil as a Magnetic Dipole
  • 29: Additional Problems
  • 29: Extra Problems
  • 29: Simulation Problems
  • 29: Symbolic Questions
  • 29: Test Bank Questions
  
  
• Chapter 30: Induction and Inductance
  • 30: Concept Questions
  • 30.1: Faraday's Law and Lenz's Law
  • 30.2: Induction and Energy Transfers
  • 30.3: Induced Electric Fields
  • 30.4: Inductors and Inductance
  • 30.5: Self-Induction
  • 30.6: RL Circuits
  • 30.7: Energy Stored in a Magnetic Field
  • 30.8: Energy Density of a Magnetic Field
  • 30.9: Mutual Induction
  • 30: Additional Problems
  • 30: Extra Problems
  • 30: Simulation Problems
  • 30: Symbolic Questions
  • 30: Test Bank Questions
  
  
• Chapter 31: Electromagnetic Oscillations and Alternating Current
  • 31: Concept Questions
  • 31.1: LC Oscillations
  • 31.2: Damped Oscillations in an RLC Circuit
  • 31.3: Forced Oscillations of Three Simple Circuits
  • 31.4: The Series RLC Circuit
  • 31.5: Power in Alternating-Current Circuits
  • 31.6: Transformers
  • 31: Additional Problems
  • 31: Extra Problems
  • 31: Simulation Problems
  • 31: Symbolic Questions
  • 31: Test Bank Questions
  
  
• Chapter 32: Maxwell's Equations; Magnetism of Matter
  • 32: Concept Questions
  • 32.1: Gauss' Law for Magnetic Fields
  • 32.2: Induced Magnetic Fields
  • 32.3: Displacement Current
  • 32.4: Magnets
  • 32.5: Magnetism and Electrons
  • 32.6: Diamagnetism
  • 32.7: Paramagnetism
  • 32.8: Ferromagnetism
  • 32: Additional Problems
  • 32: Extra Problems
  • 32: Simulation Problems
  • 32: Symbolic Questions
  • 32: Test Bank Questions
  
  
• Chapter 33: Electromagnetic Waves
  • 33: Concept Questions
  • 33.1: Electromagnetic Waves
  • 33.2: Energy Transport and the Poynting Vector
  • 33.3: Radiation Pressure
  • 33.4: Polarization
  • 33.5: Reflection and Refraction
  • 33.6: Total Internal Reflection
  • 33.7: Polarization by Reflection
  • 33: Additional Problems
  • 33: Extra Problems
  • 33: Simulation Problems
  • 33: Symbolic Questions
  • 33: Test Bank Questions
  
  
• Chapter 34: Images
  • 34: Concept Questions
  • 34.1: Images and Plane Mirrors
  • 34.2: Spherical Mirrors
  • 34.3: Spherical Refracting Surfaces
  • 34.4: Thin Lenses
  • 34.5: Optical Instruments
  • 34.6: Three Proofs
  • 34: Additional Problems
  • 34: Extra Problems
  • 34: Simulation Problems
  • 34: Symbolic Questions
  • 34: Test Bank Questions
  
  
• Chapter 35: Interference
  • 35: Concept Questions
  • 35.1: Light as a Wave
  • 35.2: Young's Interference Experiment
  • 35.3: Interference and Double-Slit Intensity
  • 35.4: Interference from Thin Films
  • 35.5: Michelson's Interferometer
  • 35: Additional Problems
  • 35: Extra Problems
  • 35: Simulation Problems
  • 35: Symbolic Questions
  • 35: Test Bank Questions
  
  
• Chapter 36: Diffraction
  • 36: Concept Questions
  • 36.1: Single-Slit Diffraction
  • 36.2: Intensity in Single-Slit Diffraction
  • 36.3: Diffraction by a Circular Aperture
  • 36.4: Diffraction by a Double Slit
  • 36.5: Diffraction Gratings
  • 36.6: Gratings: Dispersion and Resolving Power
  • 36.7: X-Ray Diffraction
  • 36: Additional Problems
  • 36: Extra Problems
  • 36: Simulation Problems
  • 36: Symbolic Questions
  • 36: Test Bank Questions
  
  
• Chapter 37: Relativity
  • 37: Concept Questions
  • 37.1: Simultaneity and Time Dilation
  • 37.2: The Relativity of Length
  • 37.3: The Lorentz Transformation
  • 37.4: The Relativity of Velocities
  • 37.5: Doppler Effect for Light
  • 37.6: Momentum and Energy
  • 37: Additional Problems
  • 37: Extra Problems
  • 37: Simulation Problems
  • 37: Symbolic Questions
  • 37: Test Bank Questions
  
  
• Chapter 38: Photons and Matter Waves
  • 38: Concept Questions
  • 38.1: The Photon, the Quantum of Light
  • 38.2: The Photoelectric Effect
  • 38.3: Photons, Momentum, Compton Scattering, Light Interference
  • 38.4: The Birth of Quantum Physics
  • 38.5: Electrons and Matter Waves
  • 38.6: Schrödinger's Equation
  • 38.7: Heisenberg's Uncertainty Principle
  • 38.8: Reflection from a Potential Step
  • 38.9: Tunneling Through a Potential Barrier
  • 38: Additional Problems
  • 38: Extra Problems
  • 38: Simulation Problems
  • 38: Symbolic Questions
  • 38: Test Bank Questions
  
  
• Chapter 39: More About Matter Waves
  • 39: Concept Questions
  • 39.1: Energies of a Trapped Electron
  • 39.2: Wave Functions of a Trapped Electron
  • 39.3: An Electron in a Finite Well
  • 39.4: Two- and Three-Dimensional Electron Traps
  • 39.5: The Hydrogen Atom
  • 39: Additional Problems
  • 39: Extra Problems
  • 39: Simulation Problems
  • 39: Symbolic Questions
  • 39: Test Bank Questions
  
  
• Chapter 40: All About Atoms
  • 40: Concept Questions
  • 40.1: Properties of Atoms
  • 40.2: The Stern-Gerlach Experiment
  • 40.3: Magnetic Resonance
  • 40.4: Exclusion Principle and Multiple Electrons in a Trap
  • 40.5: Building the Periodic Table
  • 40.6: X Rays and the Ordering of the Elements
  • 40.7: Lasers
  • 40: Additional Problems
  • 40: Extra Problems
  • 40: Simulation Problems
  • 40: Symbolic Questions
  • 40: Test Bank Questions
  
  
• Chapter 41: Conduction of Electricity in Solids
  • 41: Concept Questions
  • 41.1: The Electrical Properties of Metals
  • 41.2: Semiconductors and Doping
  • 41.3: The p-n Junction and the Transistor
  • 41: Additional Problems
  • 41: Extra Problems
  • 41: Simulation Problems
  • 41: Symbolic Questions
  • 41: Test Bank Questions
  
  
• Chapter 42: Nuclear Physics
  • 42: Concept Questions
  • 42.1: Discovering the Nucleus
  • 42.2: Some Nuclear Properties
  • 42.3: Radioactive Decay
  • 42.4: Alpha Decay
  • 42.5: Beta Decay
  • 42.6: Radioactive Dating
  • 42.7: Measuring Radiation Dosage
  • 42.8: Nuclear Models
  • 42: Additional Problems
  • 42: Extra Problems
  • 42: Simulation Problems
  • 42: Symbolic Questions
  • 42: Test Bank Questions
  
  
• Chapter 43: Energy from the Nucleus
  • 43: Concept Questions
  • 43.1: Nuclear Fission
  • 43.2: The Nuclear Reactor
  • 43.3: A Natural Nuclear Reactor
  • 43.4: Thermonuclear Fusion: The Basic Process
  • 43.5: Thermonuclear Fusion in the Sun and Other Stars
  • 43.6: Controlled Thermonuclear Fusion
  • 43: Additional Problems
  • 43: Extra Problems
  • 43: Simulation Problems
  • 43: Symbolic Questions
  • 43: Test Bank Questions
  
  
• Chapter 44: Quarks, Leptons, and the Big Bang
  • 44: Concept Questions
  • 44.1: General Properties of Elementary Particles
  • 44.2: Leptons, Hadrons, and Strangeness
  • 44.3: Quarks and Messenger Particles
  • 44.4: Cosmology
  • 44: Additional Problems
  • 44: Extra Problems
  • 44: Simulation Problems
  • 44: Symbolic Questions
  • 44: Test Bank Questions