소장자료
LDR | 11097nam a22004933i 4500 | ||
001 | 0100499754▲ | ||
003 | MiAaPQ▲ | ||
005 | 20210114132125▲ | ||
006 | m o d | ▲ | ||
007 | cr cnu||||||||▲ | ||
008 | 190222s2015 xx o ||||0 eng d▲ | ||
020 | ▼a9781292057538▼q(electronic bk.)▲ | ||
020 | ▼z9781292057132▲ | ||
035 | ▼a(MiAaPQ)EBC5174496▲ | ||
035 | ▼a(Au-PeEL)EBL5174496▲ | ||
035 | ▼a(CaPaEBR)ebr11482940▲ | ||
035 | ▼a(CaONFJC)MIL752691▲ | ||
035 | ▼a(OCoLC)1015858832▲ | ||
040 | ▼aMiAaPQ▼beng▼erda▼epn▼cMiAaPQ▼dMiAaPQ▲ | ||
050 | 4 | ▼aQC21.3 .H495 2015▲ | |
082 | 0 | ▼a530▲ | |
100 | 1 | ▼aHewitt, Paul G.▲ | |
245 | 1 | 0 | ▼aConceptual Physics, Global Edition.▲ |
250 | ▼a12th ed.▲ | ||
264 | 1 | ▼aHarlow, United Kingdom :▼bPearson Education Limited,▼c2015.▲ | |
264 | 4 | ▼c짤2015.▲ | |
300 | ▼a1 online resource (819 pages)▲ | ||
336 | ▼atext▼btxt▼2rdacontent▲ | ||
337 | ▼acomputer▼bc▼2rdamedia▲ | ||
338 | ▼aonline resource▼bcr▼2rdacarrier▲ | ||
505 | 0 | ▼aCover -- Title -- Copyright -- Contents -- Conceptual Physics Photo Album -- To the Student -- To the Instructor -- Acknowledgments -- 1 About Science -- 1.1 Scientific Measurements -- How Eratosthenes Measured the Size of Earth -- Size of the Moon -- Distance to the Moon -- Distance to the Sun -- Size of the Sun -- Mathematics-The Language of Science -- 1.2 Scientific Methods -- The Scientific Attitude -- 1.3 Science, Art, and Religion -- Pseudoscience -- 1.4 Science and Technology -- Risk Assesment -- 1.5 Physics-The Basic Science -- 1.6 In Perspective -- Part One Mechanics -- 2 Newton's First Law of Motion-Inertia -- 2.1 Aristotle on Motion -- Copernicus and the Moving Earth -- Aristotle (384-322 bc) -- 2.2 Galileo's Experiments -- Leaning Tower -- Inclined Planes -- Galileo Galilei (1564-1642) -- 2.3 Newton's First Law of Motion -- Personal Essay -- 2.4 Net Force and Vectors -- Force Vectors -- 2.5 The Equilibrium Rule -- Practicing Physics -- 2.6 Support Force -- 2.7 Equilibrium of Moving Things -- 2.8 The Moving Earth -- 3 Linear Motion -- 3.1 Motion Is Relative -- 3.2 Speed -- Instantaneous Speed -- Average Speed -- 3.3 Velocity -- Constant Velocity -- Changing Velocity -- 3.4 Acceleration -- Acceleration on Galileo's Inclined Planes -- 3.5 Free Fall -- How Fast -- How Far -- Hang Time -- How Quickly "How Fast" Changes -- 3.6 Velocity Vectors -- 4 Newton's Second Law of Motion -- 4.1 Force Causes Acceleration -- 4.2 Friction -- 4.3 Mass and Weight -- Mass Resists Acceleration -- 4.4 Newton's Second Law of Motion -- 4.5 When Acceleration Is g-Free Fall -- 4.6 When Acceleration Is Less Than g-Nonfree Fall -- 5 Newton's Third Law of Motion -- 5.1 Forces and Interactions -- 5.2 Newton's Third Law of Motion -- Defining Your System -- 5.3 Action and Reaction on Different Masses -- Practicing Physics: Tug-of-War -- 5.4 Vectors and the Third Law.▲ | |
505 | 8 | ▼a5.5 Summary of Newton's Three Laws -- 6 Momentum -- 6.1 Momentum -- 6.2 Impulse -- 6.3 Impulse Changes Momentum -- Case 1: Increasing Momentum -- Case 2: Decreasing Momentum Overa Long Time -- Case 3: Decreasing Momentum Overa Short Time -- 6.4 Bouncing -- 6.5 Conservation of Momentum -- Conservation Laws -- 6.6 Collisions -- 6.7 More Complicated Collisions -- 7 Energy -- 7.1 Work -- Power -- Mechanical Energy -- 7.2 Potential Energy -- 7.3 Kinetic Energy -- 7.4 Work-Energy Theorem -- 7.5 Conservation of Energy -- Energy and Technology -- Circus Physics -- Recycled Energy -- 7.6 Machines -- 7.7 Efficiency -- 7.8 Sources of Energy -- Junk Science -- 8 Rotational Motion -- 8.1 Circular Motion -- Whels on Railroad Trains -- 8.2 Rotational Inertia -- 8.3 Torque -- 8.4 Center of Mass and Center of Gravity -- Locating the Center of Gravity -- Stability -- 8.5 Centripetal Force -- Practicing Physics:Water-Bucket Swing -- 8.6 Centrifugal Force -- Centrifugal Force in a Rotating Reference Frame -- Simulated Gravity -- 8.7 Angular Momentum -- 8.8 Conservation of Angular Momentum -- 9 Gravity -- 9.1 The Universal Law of Gravity -- 9.2 The Universal Gravitational Constant, G -- 9.3 Gravity and Distance: The Inverse-Square Law -- 9.4 Weight and Weightlessness -- 9.5 Ocean Tides -- Tides in the Earth and Atmosphere -- Tidal Bulges on the Moon -- 9.6 Gravitational Fields -- Gravitational Field Inside a Planet -- Einstein's Theory of Gravitation -- 9.7 Black Holes -- 9.8 Universal Gravitation -- 10 Projectile and Satellite Motion -- 10.1 Projectile Motion -- Projectiles Launched Horizontally -- Projectiles Launched at an Angle -- Practicing Physics: Hands-On Dangling Beads -- Hang Time Revisited -- 10.2 Fast-Moving Projectiles-Satellites -- 10.3 Circular Satellite Orbits -- 10.4 Elliptical Orbits -- World Monitoring by Satelite.▲ | |
505 | 8 | ▼a10.5 Kepler's Laws of Planetary Motion -- Finding Your Way -- 10.6 Energy Conservation and Satellite Motion -- 10.7 Escape Speed -- Part Two Properties of Matter -- 11 The Atomic Nature of Matter -- 11.1 The Atomic Hypothesis -- Faling Alice -- 11.2 Characteristics of Atoms -- 11.3 Atomic Imagery -- 11.4 Atomic Structure -- The Elements -- 11.5 The Periodic Table of the Elements -- Relative Sizes of Atoms -- 11.6 Isotopes -- 11.7 Compounds and Mixtures -- 11.8 Molecules -- 11.9 Antimatter -- Dark Matter -- 12 Solids -- 12.1 Crystal Structure -- Crystal Power -- 12.2 Density -- 12.3 Elasticity -- 12.4 Tension and Compression -- Practicing Physics: stick strength -- 12.5 Arches -- Additive Manufacturing or 3-D Printing -- 12.6 Scaling -- 13 Liquids -- 13.1 Pressure -- 13.2 Pressure in a Liquid -- 13.3 Buoyancy -- 13.4 Archimedes' Principle -- 13.5 What Makes an Object Sink or Float? -- 13.6 Flotation -- Floating Mountains -- 13.7 Pascal's Principle -- 13.8 Surface Tension -- 13.9 Capillarity -- 14 Gases -- 14.1 The Atmosphere -- 14.2 Atmospheric Pressure -- The Barometer -- 14.3 Boyle's Law -- 14.4 Buoyancy of Air -- 14.5 Bernoulli's Principle -- Applications of Bernoulli's Principle -- Practicing Physics -- 14.6 Plasma -- Plasma in the Everyday World -- Plasma Power -- Part Three Heat -- 15 Temperature, Heat,and Expansion -- 15.1 Temperature -- 15.2 Heat -- Measuring Heat -- 15.3 Specific Heat Capacity -- 15.4 The High Specific Heat Capacity of Water -- 15.5 Thermal Expansion -- Expansion of Water -- Life at the Extremes -- 16 Heat Transfer -- 16.1 Conduction -- 16.2 Convection -- Practicing Physics -- 16.3 Radiation -- Emission of Radiant Energy -- Absorption of Radiant Energy -- Reflection of Radiant Energy -- Cooling at Night by Radiation -- 16.4 Newton's Law of Cooling -- 16.5 The Greenhouse Effect -- 16.6 Climate Change -- 16.7 Solar Power.▲ | |
505 | 8 | ▼aPracticing Physics -- 16.8 Controlling Heat Transfer -- 17 Change of Phase -- 17.1 Phases of Matter -- 17.2 Evaporation -- 17.3 Condensation -- Condensation in the Atmosphere -- Fog and Clouds -- 17.4 Boiling -- Geysers -- Boiling Is a Cooling Process -- Boiling and Freezing at the Same Time -- 17.5 Melting and Freezing -- Regelation -- 17.6 Energy and Changes of Phase -- Practicing Physics -- 18 Thermodynamics -- 18.1 Thermodynamics -- 18.2 Absolute Zero -- Internal Energy -- 18.3 First Law of Thermodynamics -- 18.4 Adiabatic Processes -- 18.5 Meteorology and the First Law -- 18.6 Second Law of Thermodynamics -- Heat Engines -- Thermodynamics Dramatized! -- 18.7 Energy Tends to Disperse -- 18.8 Entropy -- Part Four Sound -- 19 Vibrations and Waves -- 19.1 Good Vibrations -- Vibration of a Pendulum -- 19.2 Wave Description -- 19.3 Wave Motion -- Practicing Physics -- Transverse Waves -- Longitudinal Waves -- 19.4 Wave Speed -- 19.5 Wave Interference -- Standing Waves -- 19.6 Doppler Effect -- 19.7 Bow Waves -- 19.8 Shock Waves -- 20 Sound -- 20.1 Nature of Sound -- Origin of Sound -- Media That Transmit Sound -- 20.2 Sound in Air -- Loudspeaker -- Speed of Sound in Air -- Practicing Physics -- Energy in Sound Waves -- 20.3 Reflection of Sound -- 20.4 Refraction of Sound -- 20.5 Forced Vibrations -- Natural Frequency -- 20.6 Resonance -- 20.7 Interference -- 20.8 Beats -- Radio Broadcasts -- 21 Musical Sounds -- 21.1 Noise and Music -- 21.2 Pitch -- 21.3 Sound Intensity and Loudness -- 21.4 Quality -- 21.5 Musical Instruments -- 21.6 Fourier Analysis -- 21.7 From Analog to Digital -- Part Five Electricity and Magnetism -- 22 Electrostatics -- 22.1 Electricity -- Electrical Forces -- 22.2 Electric Charges -- 22.3 Conservation of Charge -- Electronics Technology and Sparks -- 22.4 Coulomb's Law -- 22.5 Conductors and Insulators -- Semiconductors.▲ | |
505 | 8 | ▼aSuperconductors -- 22.6 Charging -- Charging by Friction and Contact -- Charging by Induction -- 22.7 Charge Polarization -- 22.8 Electric Field -- Microwave Oven -- Electric Shielding -- 22.9 Electric Potential -- Electric Energy Storage -- Van de Graaff Generator -- 23 Electric Current -- 23.1 Flow of Charge and Electric Current -- 23.2 Voltage Sources -- 23.3 Electrical Resistance -- 23.4 Ohm's Law -- Ohm's Law and Electric Shock -- 23.5 Direct Current and Alternating Current -- Converting AC to DC -- 23.6 Speed and Source of Electrons in a Circuit -- 23.7 Electric Power -- 23.8 Lamps -- 23.9 Electric Circuits -- Series Circuits -- Fuel Cels -- Parallel Circuits -- Parallel Circuits and Overloading -- Safety Fuses -- 24 Magnetism -- 24.1 Magnetism -- 24.2 Magnetic Poles -- 24.3 Magnetic Fields -- 24.4 Magnetic Domains -- 24.5 Electric Currents and Magnetic Fields -- Practicing Physics -- 24.6 Electromagnets -- Superconducting Electromagnets -- 24.7 Magnetic Forces -- On Moving Charged Particles -- On Current-Carrying Wires -- Electric Meters -- Electric Motors -- 24.8 Earth's Magnetic Field -- Cosmic Rays -- 24.9 Biomagnetism -- MRI: Magnetic Resonance Imaging -- 25 Electromagnetic Induction -- 25.1 Electromagnetic Induction -- 25.2 Faraday's Law -- 25.3 Generators and Alternating Current -- 25.4 Power Production -- Turbogenerator Power -- MHD Power -- 25.5 Transformers -- 25.6 Self-Induction -- 25.7 Power Transmission -- 25.8 Field Induction -- Part Six Light -- 26 Properties of Light -- 26.1 Electromagnetic Waves -- 26.2 Electromagnetic Wave Velocity -- 26.3 The Electromagnetic Spectrum -- Fractal Antenas -- 26.4 Transparent Materials -- 26.5 Opaque Materials -- Shadows -- 26.6 Seeing Light-The Eye -- 27 Color -- 27.1 Color in Our World -- 27.2 Selective Reflection -- 27.3 Selective Transmission -- 27.4 Mixing Colored Lights -- Primary Colors.▲ | |
505 | 8 | ▼aComplementary Colors.▲ | |
588 | ▼aDescription based on publisher supplied metadata and other sources.▲ | ||
590 | ▼aElectronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2019. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. ▲ | ||
650 | 0 | ▼aPhysics-Textbooks.▲ | |
655 | 4 | ▼aElectronic books.▲ | |
700 | 1 | ▼aHewitt, Leslie A.▲ | |
776 | 0 | 8 | ▼iPrint version:▼aHewitt, Paul G.▼tConceptual Physics, Global Edition▼dHarlow, United Kingdom : Pearson Education Limited,c2015▼z9781292057132▲ |
797 | 2 | ▼aProQuest (Firm)▲ | |
856 | 4 | 0 | ▼uhttps://ebookcentral.proquest.com/lib/pusan/detail.action?docID=5174496▼zClick to View▲ |
Conceptual Physics, Global Edition
자료유형
국외eBook
서명/책임사항
Conceptual Physics, Global Edition.
판사항
12th ed.
형태사항
1 online resource (819 pages)
내용주기
Cover -- Title -- Copyright -- Contents -- Conceptual Physics Photo Album -- To the Student -- To the Instructor -- Acknowledgments -- 1 About Science -- 1.1 Scientific Measurements -- How Eratosthenes Measured the Size of Earth -- Size of the Moon -- Distance to the Moon -- Distance to the Sun -- Size of the Sun -- Mathematics-The Language of Science -- 1.2 Scientific Methods -- The Scientific Attitude -- 1.3 Science, Art, and Religion -- Pseudoscience -- 1.4 Science and Technology -- Risk Assesment -- 1.5 Physics-The Basic Science -- 1.6 In Perspective -- Part One Mechanics -- 2 Newton's First Law of Motion-Inertia -- 2.1 Aristotle on Motion -- Copernicus and the Moving Earth -- Aristotle (384-322 bc) -- 2.2 Galileo's Experiments -- Leaning Tower -- Inclined Planes -- Galileo Galilei (1564-1642) -- 2.3 Newton's First Law of Motion -- Personal Essay -- 2.4 Net Force and Vectors -- Force Vectors -- 2.5 The Equilibrium Rule -- Practicing Physics -- 2.6 Support Force -- 2.7 Equilibrium of Moving Things -- 2.8 The Moving Earth -- 3 Linear Motion -- 3.1 Motion Is Relative -- 3.2 Speed -- Instantaneous Speed -- Average Speed -- 3.3 Velocity -- Constant Velocity -- Changing Velocity -- 3.4 Acceleration -- Acceleration on Galileo's Inclined Planes -- 3.5 Free Fall -- How Fast -- How Far -- Hang Time -- How Quickly "How Fast" Changes -- 3.6 Velocity Vectors -- 4 Newton's Second Law of Motion -- 4.1 Force Causes Acceleration -- 4.2 Friction -- 4.3 Mass and Weight -- Mass Resists Acceleration -- 4.4 Newton's Second Law of Motion -- 4.5 When Acceleration Is g-Free Fall -- 4.6 When Acceleration Is Less Than g-Nonfree Fall -- 5 Newton's Third Law of Motion -- 5.1 Forces and Interactions -- 5.2 Newton's Third Law of Motion -- Defining Your System -- 5.3 Action and Reaction on Different Masses -- Practicing Physics: Tug-of-War -- 5.4 Vectors and the Third Law.
5.5 Summary of Newton's Three Laws -- 6 Momentum -- 6.1 Momentum -- 6.2 Impulse -- 6.3 Impulse Changes Momentum -- Case 1: Increasing Momentum -- Case 2: Decreasing Momentum Overa Long Time -- Case 3: Decreasing Momentum Overa Short Time -- 6.4 Bouncing -- 6.5 Conservation of Momentum -- Conservation Laws -- 6.6 Collisions -- 6.7 More Complicated Collisions -- 7 Energy -- 7.1 Work -- Power -- Mechanical Energy -- 7.2 Potential Energy -- 7.3 Kinetic Energy -- 7.4 Work-Energy Theorem -- 7.5 Conservation of Energy -- Energy and Technology -- Circus Physics -- Recycled Energy -- 7.6 Machines -- 7.7 Efficiency -- 7.8 Sources of Energy -- Junk Science -- 8 Rotational Motion -- 8.1 Circular Motion -- Whels on Railroad Trains -- 8.2 Rotational Inertia -- 8.3 Torque -- 8.4 Center of Mass and Center of Gravity -- Locating the Center of Gravity -- Stability -- 8.5 Centripetal Force -- Practicing Physics:Water-Bucket Swing -- 8.6 Centrifugal Force -- Centrifugal Force in a Rotating Reference Frame -- Simulated Gravity -- 8.7 Angular Momentum -- 8.8 Conservation of Angular Momentum -- 9 Gravity -- 9.1 The Universal Law of Gravity -- 9.2 The Universal Gravitational Constant, G -- 9.3 Gravity and Distance: The Inverse-Square Law -- 9.4 Weight and Weightlessness -- 9.5 Ocean Tides -- Tides in the Earth and Atmosphere -- Tidal Bulges on the Moon -- 9.6 Gravitational Fields -- Gravitational Field Inside a Planet -- Einstein's Theory of Gravitation -- 9.7 Black Holes -- 9.8 Universal Gravitation -- 10 Projectile and Satellite Motion -- 10.1 Projectile Motion -- Projectiles Launched Horizontally -- Projectiles Launched at an Angle -- Practicing Physics: Hands-On Dangling Beads -- Hang Time Revisited -- 10.2 Fast-Moving Projectiles-Satellites -- 10.3 Circular Satellite Orbits -- 10.4 Elliptical Orbits -- World Monitoring by Satelite.
10.5 Kepler's Laws of Planetary Motion -- Finding Your Way -- 10.6 Energy Conservation and Satellite Motion -- 10.7 Escape Speed -- Part Two Properties of Matter -- 11 The Atomic Nature of Matter -- 11.1 The Atomic Hypothesis -- Faling Alice -- 11.2 Characteristics of Atoms -- 11.3 Atomic Imagery -- 11.4 Atomic Structure -- The Elements -- 11.5 The Periodic Table of the Elements -- Relative Sizes of Atoms -- 11.6 Isotopes -- 11.7 Compounds and Mixtures -- 11.8 Molecules -- 11.9 Antimatter -- Dark Matter -- 12 Solids -- 12.1 Crystal Structure -- Crystal Power -- 12.2 Density -- 12.3 Elasticity -- 12.4 Tension and Compression -- Practicing Physics: stick strength -- 12.5 Arches -- Additive Manufacturing or 3-D Printing -- 12.6 Scaling -- 13 Liquids -- 13.1 Pressure -- 13.2 Pressure in a Liquid -- 13.3 Buoyancy -- 13.4 Archimedes' Principle -- 13.5 What Makes an Object Sink or Float? -- 13.6 Flotation -- Floating Mountains -- 13.7 Pascal's Principle -- 13.8 Surface Tension -- 13.9 Capillarity -- 14 Gases -- 14.1 The Atmosphere -- 14.2 Atmospheric Pressure -- The Barometer -- 14.3 Boyle's Law -- 14.4 Buoyancy of Air -- 14.5 Bernoulli's Principle -- Applications of Bernoulli's Principle -- Practicing Physics -- 14.6 Plasma -- Plasma in the Everyday World -- Plasma Power -- Part Three Heat -- 15 Temperature, Heat,and Expansion -- 15.1 Temperature -- 15.2 Heat -- Measuring Heat -- 15.3 Specific Heat Capacity -- 15.4 The High Specific Heat Capacity of Water -- 15.5 Thermal Expansion -- Expansion of Water -- Life at the Extremes -- 16 Heat Transfer -- 16.1 Conduction -- 16.2 Convection -- Practicing Physics -- 16.3 Radiation -- Emission of Radiant Energy -- Absorption of Radiant Energy -- Reflection of Radiant Energy -- Cooling at Night by Radiation -- 16.4 Newton's Law of Cooling -- 16.5 The Greenhouse Effect -- 16.6 Climate Change -- 16.7 Solar Power.
Practicing Physics -- 16.8 Controlling Heat Transfer -- 17 Change of Phase -- 17.1 Phases of Matter -- 17.2 Evaporation -- 17.3 Condensation -- Condensation in the Atmosphere -- Fog and Clouds -- 17.4 Boiling -- Geysers -- Boiling Is a Cooling Process -- Boiling and Freezing at the Same Time -- 17.5 Melting and Freezing -- Regelation -- 17.6 Energy and Changes of Phase -- Practicing Physics -- 18 Thermodynamics -- 18.1 Thermodynamics -- 18.2 Absolute Zero -- Internal Energy -- 18.3 First Law of Thermodynamics -- 18.4 Adiabatic Processes -- 18.5 Meteorology and the First Law -- 18.6 Second Law of Thermodynamics -- Heat Engines -- Thermodynamics Dramatized! -- 18.7 Energy Tends to Disperse -- 18.8 Entropy -- Part Four Sound -- 19 Vibrations and Waves -- 19.1 Good Vibrations -- Vibration of a Pendulum -- 19.2 Wave Description -- 19.3 Wave Motion -- Practicing Physics -- Transverse Waves -- Longitudinal Waves -- 19.4 Wave Speed -- 19.5 Wave Interference -- Standing Waves -- 19.6 Doppler Effect -- 19.7 Bow Waves -- 19.8 Shock Waves -- 20 Sound -- 20.1 Nature of Sound -- Origin of Sound -- Media That Transmit Sound -- 20.2 Sound in Air -- Loudspeaker -- Speed of Sound in Air -- Practicing Physics -- Energy in Sound Waves -- 20.3 Reflection of Sound -- 20.4 Refraction of Sound -- 20.5 Forced Vibrations -- Natural Frequency -- 20.6 Resonance -- 20.7 Interference -- 20.8 Beats -- Radio Broadcasts -- 21 Musical Sounds -- 21.1 Noise and Music -- 21.2 Pitch -- 21.3 Sound Intensity and Loudness -- 21.4 Quality -- 21.5 Musical Instruments -- 21.6 Fourier Analysis -- 21.7 From Analog to Digital -- Part Five Electricity and Magnetism -- 22 Electrostatics -- 22.1 Electricity -- Electrical Forces -- 22.2 Electric Charges -- 22.3 Conservation of Charge -- Electronics Technology and Sparks -- 22.4 Coulomb's Law -- 22.5 Conductors and Insulators -- Semiconductors.
Superconductors -- 22.6 Charging -- Charging by Friction and Contact -- Charging by Induction -- 22.7 Charge Polarization -- 22.8 Electric Field -- Microwave Oven -- Electric Shielding -- 22.9 Electric Potential -- Electric Energy Storage -- Van de Graaff Generator -- 23 Electric Current -- 23.1 Flow of Charge and Electric Current -- 23.2 Voltage Sources -- 23.3 Electrical Resistance -- 23.4 Ohm's Law -- Ohm's Law and Electric Shock -- 23.5 Direct Current and Alternating Current -- Converting AC to DC -- 23.6 Speed and Source of Electrons in a Circuit -- 23.7 Electric Power -- 23.8 Lamps -- 23.9 Electric Circuits -- Series Circuits -- Fuel Cels -- Parallel Circuits -- Parallel Circuits and Overloading -- Safety Fuses -- 24 Magnetism -- 24.1 Magnetism -- 24.2 Magnetic Poles -- 24.3 Magnetic Fields -- 24.4 Magnetic Domains -- 24.5 Electric Currents and Magnetic Fields -- Practicing Physics -- 24.6 Electromagnets -- Superconducting Electromagnets -- 24.7 Magnetic Forces -- On Moving Charged Particles -- On Current-Carrying Wires -- Electric Meters -- Electric Motors -- 24.8 Earth's Magnetic Field -- Cosmic Rays -- 24.9 Biomagnetism -- MRI: Magnetic Resonance Imaging -- 25 Electromagnetic Induction -- 25.1 Electromagnetic Induction -- 25.2 Faraday's Law -- 25.3 Generators and Alternating Current -- 25.4 Power Production -- Turbogenerator Power -- MHD Power -- 25.5 Transformers -- 25.6 Self-Induction -- 25.7 Power Transmission -- 25.8 Field Induction -- Part Six Light -- 26 Properties of Light -- 26.1 Electromagnetic Waves -- 26.2 Electromagnetic Wave Velocity -- 26.3 The Electromagnetic Spectrum -- Fractal Antenas -- 26.4 Transparent Materials -- 26.5 Opaque Materials -- Shadows -- 26.6 Seeing Light-The Eye -- 27 Color -- 27.1 Color in Our World -- 27.2 Selective Reflection -- 27.3 Selective Transmission -- 27.4 Mixing Colored Lights -- Primary Colors.
Complementary Colors.
5.5 Summary of Newton's Three Laws -- 6 Momentum -- 6.1 Momentum -- 6.2 Impulse -- 6.3 Impulse Changes Momentum -- Case 1: Increasing Momentum -- Case 2: Decreasing Momentum Overa Long Time -- Case 3: Decreasing Momentum Overa Short Time -- 6.4 Bouncing -- 6.5 Conservation of Momentum -- Conservation Laws -- 6.6 Collisions -- 6.7 More Complicated Collisions -- 7 Energy -- 7.1 Work -- Power -- Mechanical Energy -- 7.2 Potential Energy -- 7.3 Kinetic Energy -- 7.4 Work-Energy Theorem -- 7.5 Conservation of Energy -- Energy and Technology -- Circus Physics -- Recycled Energy -- 7.6 Machines -- 7.7 Efficiency -- 7.8 Sources of Energy -- Junk Science -- 8 Rotational Motion -- 8.1 Circular Motion -- Whels on Railroad Trains -- 8.2 Rotational Inertia -- 8.3 Torque -- 8.4 Center of Mass and Center of Gravity -- Locating the Center of Gravity -- Stability -- 8.5 Centripetal Force -- Practicing Physics:Water-Bucket Swing -- 8.6 Centrifugal Force -- Centrifugal Force in a Rotating Reference Frame -- Simulated Gravity -- 8.7 Angular Momentum -- 8.8 Conservation of Angular Momentum -- 9 Gravity -- 9.1 The Universal Law of Gravity -- 9.2 The Universal Gravitational Constant, G -- 9.3 Gravity and Distance: The Inverse-Square Law -- 9.4 Weight and Weightlessness -- 9.5 Ocean Tides -- Tides in the Earth and Atmosphere -- Tidal Bulges on the Moon -- 9.6 Gravitational Fields -- Gravitational Field Inside a Planet -- Einstein's Theory of Gravitation -- 9.7 Black Holes -- 9.8 Universal Gravitation -- 10 Projectile and Satellite Motion -- 10.1 Projectile Motion -- Projectiles Launched Horizontally -- Projectiles Launched at an Angle -- Practicing Physics: Hands-On Dangling Beads -- Hang Time Revisited -- 10.2 Fast-Moving Projectiles-Satellites -- 10.3 Circular Satellite Orbits -- 10.4 Elliptical Orbits -- World Monitoring by Satelite.
10.5 Kepler's Laws of Planetary Motion -- Finding Your Way -- 10.6 Energy Conservation and Satellite Motion -- 10.7 Escape Speed -- Part Two Properties of Matter -- 11 The Atomic Nature of Matter -- 11.1 The Atomic Hypothesis -- Faling Alice -- 11.2 Characteristics of Atoms -- 11.3 Atomic Imagery -- 11.4 Atomic Structure -- The Elements -- 11.5 The Periodic Table of the Elements -- Relative Sizes of Atoms -- 11.6 Isotopes -- 11.7 Compounds and Mixtures -- 11.8 Molecules -- 11.9 Antimatter -- Dark Matter -- 12 Solids -- 12.1 Crystal Structure -- Crystal Power -- 12.2 Density -- 12.3 Elasticity -- 12.4 Tension and Compression -- Practicing Physics: stick strength -- 12.5 Arches -- Additive Manufacturing or 3-D Printing -- 12.6 Scaling -- 13 Liquids -- 13.1 Pressure -- 13.2 Pressure in a Liquid -- 13.3 Buoyancy -- 13.4 Archimedes' Principle -- 13.5 What Makes an Object Sink or Float? -- 13.6 Flotation -- Floating Mountains -- 13.7 Pascal's Principle -- 13.8 Surface Tension -- 13.9 Capillarity -- 14 Gases -- 14.1 The Atmosphere -- 14.2 Atmospheric Pressure -- The Barometer -- 14.3 Boyle's Law -- 14.4 Buoyancy of Air -- 14.5 Bernoulli's Principle -- Applications of Bernoulli's Principle -- Practicing Physics -- 14.6 Plasma -- Plasma in the Everyday World -- Plasma Power -- Part Three Heat -- 15 Temperature, Heat,and Expansion -- 15.1 Temperature -- 15.2 Heat -- Measuring Heat -- 15.3 Specific Heat Capacity -- 15.4 The High Specific Heat Capacity of Water -- 15.5 Thermal Expansion -- Expansion of Water -- Life at the Extremes -- 16 Heat Transfer -- 16.1 Conduction -- 16.2 Convection -- Practicing Physics -- 16.3 Radiation -- Emission of Radiant Energy -- Absorption of Radiant Energy -- Reflection of Radiant Energy -- Cooling at Night by Radiation -- 16.4 Newton's Law of Cooling -- 16.5 The Greenhouse Effect -- 16.6 Climate Change -- 16.7 Solar Power.
Practicing Physics -- 16.8 Controlling Heat Transfer -- 17 Change of Phase -- 17.1 Phases of Matter -- 17.2 Evaporation -- 17.3 Condensation -- Condensation in the Atmosphere -- Fog and Clouds -- 17.4 Boiling -- Geysers -- Boiling Is a Cooling Process -- Boiling and Freezing at the Same Time -- 17.5 Melting and Freezing -- Regelation -- 17.6 Energy and Changes of Phase -- Practicing Physics -- 18 Thermodynamics -- 18.1 Thermodynamics -- 18.2 Absolute Zero -- Internal Energy -- 18.3 First Law of Thermodynamics -- 18.4 Adiabatic Processes -- 18.5 Meteorology and the First Law -- 18.6 Second Law of Thermodynamics -- Heat Engines -- Thermodynamics Dramatized! -- 18.7 Energy Tends to Disperse -- 18.8 Entropy -- Part Four Sound -- 19 Vibrations and Waves -- 19.1 Good Vibrations -- Vibration of a Pendulum -- 19.2 Wave Description -- 19.3 Wave Motion -- Practicing Physics -- Transverse Waves -- Longitudinal Waves -- 19.4 Wave Speed -- 19.5 Wave Interference -- Standing Waves -- 19.6 Doppler Effect -- 19.7 Bow Waves -- 19.8 Shock Waves -- 20 Sound -- 20.1 Nature of Sound -- Origin of Sound -- Media That Transmit Sound -- 20.2 Sound in Air -- Loudspeaker -- Speed of Sound in Air -- Practicing Physics -- Energy in Sound Waves -- 20.3 Reflection of Sound -- 20.4 Refraction of Sound -- 20.5 Forced Vibrations -- Natural Frequency -- 20.6 Resonance -- 20.7 Interference -- 20.8 Beats -- Radio Broadcasts -- 21 Musical Sounds -- 21.1 Noise and Music -- 21.2 Pitch -- 21.3 Sound Intensity and Loudness -- 21.4 Quality -- 21.5 Musical Instruments -- 21.6 Fourier Analysis -- 21.7 From Analog to Digital -- Part Five Electricity and Magnetism -- 22 Electrostatics -- 22.1 Electricity -- Electrical Forces -- 22.2 Electric Charges -- 22.3 Conservation of Charge -- Electronics Technology and Sparks -- 22.4 Coulomb's Law -- 22.5 Conductors and Insulators -- Semiconductors.
Superconductors -- 22.6 Charging -- Charging by Friction and Contact -- Charging by Induction -- 22.7 Charge Polarization -- 22.8 Electric Field -- Microwave Oven -- Electric Shielding -- 22.9 Electric Potential -- Electric Energy Storage -- Van de Graaff Generator -- 23 Electric Current -- 23.1 Flow of Charge and Electric Current -- 23.2 Voltage Sources -- 23.3 Electrical Resistance -- 23.4 Ohm's Law -- Ohm's Law and Electric Shock -- 23.5 Direct Current and Alternating Current -- Converting AC to DC -- 23.6 Speed and Source of Electrons in a Circuit -- 23.7 Electric Power -- 23.8 Lamps -- 23.9 Electric Circuits -- Series Circuits -- Fuel Cels -- Parallel Circuits -- Parallel Circuits and Overloading -- Safety Fuses -- 24 Magnetism -- 24.1 Magnetism -- 24.2 Magnetic Poles -- 24.3 Magnetic Fields -- 24.4 Magnetic Domains -- 24.5 Electric Currents and Magnetic Fields -- Practicing Physics -- 24.6 Electromagnets -- Superconducting Electromagnets -- 24.7 Magnetic Forces -- On Moving Charged Particles -- On Current-Carrying Wires -- Electric Meters -- Electric Motors -- 24.8 Earth's Magnetic Field -- Cosmic Rays -- 24.9 Biomagnetism -- MRI: Magnetic Resonance Imaging -- 25 Electromagnetic Induction -- 25.1 Electromagnetic Induction -- 25.2 Faraday's Law -- 25.3 Generators and Alternating Current -- 25.4 Power Production -- Turbogenerator Power -- MHD Power -- 25.5 Transformers -- 25.6 Self-Induction -- 25.7 Power Transmission -- 25.8 Field Induction -- Part Six Light -- 26 Properties of Light -- 26.1 Electromagnetic Waves -- 26.2 Electromagnetic Wave Velocity -- 26.3 The Electromagnetic Spectrum -- Fractal Antenas -- 26.4 Transparent Materials -- 26.5 Opaque Materials -- Shadows -- 26.6 Seeing Light-The Eye -- 27 Color -- 27.1 Color in Our World -- 27.2 Selective Reflection -- 27.3 Selective Transmission -- 27.4 Mixing Colored Lights -- Primary Colors.
Complementary Colors.
기타형태저록
ISBN
9781292057538
저자의 다른
저작물보기
저작물보기
북토크
자유롭게 책을 읽고
느낀점을 적어주세요
글쓰기
느낀점을 적어주세요
청구기호 브라우징
관련 인기대출 도서