Conceptual Physics 12th Edition by Paul Hewitt – Ebook PDF Instant Download/Delivery: 0321909100, 9780321909107
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ISBN 10: 0321909100
ISBN 13: 9780321909107
Author: Paul G. Hewitt
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Conceptual Physics 12th Table of contents:
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 ASSESSMENT
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
2.2 Galileo’s Experiments
2.3 Newton’s First Law of Motion
2.4 Net Force and Vectors
2.5 The Equilibrium Rule
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
3.3 Velocity
3.4 Acceleration
3.5 Free Fall
3.6 Velocity Vectors
4 Newton’s Second Law of Motion
4.1 Force Causes Acceleration
4.2 Friction
4.3 Mass and Weight
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
5.3 Action and Reaction on Different Masses
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
6.4 Bouncing
6.5 Conservation of Momentum
6.6 Collisions
6.7 More Complicated Collisions
7 Energy
7.1 Work
7.2 Potential Energy
7.3 Kinetic Energy
7.4 Work–Energy Theorem
7.5 Conservation of Energy
7.6 Machines
7.7 Efficiency
7.8 Sources of Energy
8 Rotational Motion
8.1 Circular Motion
8.2 Rotational Inertia
8.3 Torque
8.4 Center of Mass and Center of Gravity
8.5 Centripetal Force
8.6 Centrifugal Force
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
9.6 Gravitational Fields
9.7 Black Holes
9.8 Universal Gravitation
10 Projectile and Satellite Motion
10.1 Projectile Motion
10.2 Fast-Moving Projectiles—Satellites
10.3 Circular Satellite Orbits
10.4 Elliptical Orbits
10.5 Kepler’s Laws of Planetary Motion
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
11.2 Characteristics of Atoms
11.3 Atomic imagery
11.4 Atomic Structure
11.5 The Periodic Table of the Elements
11.6 Isotopes
11.7 compounds and Mixtures
11.8 Molecules
11.9 Antimatter
12 Solids
12.1 Crystal Structure
12.2 Density
12.3 Elasticity
12.4 Tension and Compression
12.5 Arches
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
13.7 Pascal’s Principle
13.8 Surface Tension
13.9 Capillarity
14 Gases
14.1 The Atmosphere
14.2 Atmospheric Pressure
14.3 Boyle’s law
14.4 Buoyancy of Air
14.5 Bernoulli’s Principle
14.6 Plasma
PART THREE: Heat
15 Temperature, Heat, and Expansion
15.1 Temperature
15.2 Heat
15.3 Specific Heat capacity
15.4 The High Specific Heat Capacity of Water
15.5 Thermal Expansion
16 Heat Transfer
16.1 Conduction
16.2 Convection
16.3 Radiation
16.4 Newton’s law of Cooling
16.5 The Greenhouse Effect
16.6 Climate Change
16.7 Solar Power
16.8 Controlling Heat Transfer
17 Change of Phase
17.1 Phases of Matter
17.2 Evaporation
17.3 Condensation
17.4 Boiling
17.5 Melting and Freezing
17.6 Energy and Changes of Phase
18 Thermodynamics
18.1 Thermodynamics
18.2 Absolute Zero
18.3 First Law of Thermodynamics
18.4 Adiabatic Processes
18.5 Meteorology and the First Law
18.6 Second Law of Thermodynamics
18.7 Energy Tends to Disperse
18.8 Entropy
PART FOUR: Sound
19 Vibrations and Waves
19.1 Good Vibrations
19.2 Wave Description
19.3 Wave Motion
19.4 Wave Speed
19.5 Wave Interference
19.6 Doppler Effect
19.7 Bow Waves
19.8 Shock Waves
20 Sound
20.1 Nature of Sound
20.2 Sound in Air
20.3 Reflection of Sound
20.4 Refraction of Sound
20.5 Forced Vibrations
20.6 Resonance
20.7 Interference
20.8 Beats
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
22.2 Electric Charges
22.3 Conservation of Charge
22.4 Coulomb’s Law
22.5 Conductors and Insulators
22.6 Charging
22.7 Charge Polarization
22.8 Electric Field
22.9 Electric Potential
23 Electric Current
23.1 Flow of Charge and Electric Current
23.2 Voltage Sources
23.3 Electrical Resistance
23.4 Ohm’s Law
23.5 Direct Current and Alternating Current
23.6 Speed and Source of Electrons in a Circuit
23.7 Electric Power
23.8 Lamps
23.9 Electric Circuits
24 Magnetism
24.1 Magnetism
24.2 Magnetic Poles
24.3 Magnetic Fields
24.4 Magnetic Domains
24.5 Electric Currents and Magnetic Fields
24.6 Electromagnets
24.7 Magnetic Forces
24.8 Earth’s Magnetic Field
24.9 Biomagnetism
25 Electromagnetic Induction
25.1 Electromagnetic Induction
25.2 Faraday’s Law
25.3 Generators and Alternating Current
25.4 Power Production
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
26.4 Transparent Materials
26.5 Opaque Materials
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
27.5 Mixing Colored Pigments
27.6 Why the Sky Is Blue
27.7 Why Sunsets Are Red
27.8 Why Clouds Are White
27.9 Why Water Is Greenish Blue
28 Reflection and Refraction
28.1 Reflection
28.2 Law of Reflection
28.3 Refraction
28.4 Cause of Refraction
28.5 Dispersion and Rainbows
28.6 Total Internal Reflection
28.7 Lenses
28.8 Lens Defects
29.1 H29 Light Wavesuygens’ Principle
29.2 Diffraction
29.3 Superposition and Interference
29.4 Thin-Film Interference
29.5 Polarization
29.6 Holography
30 Light Emission
30.1 Light Emission
30.2 Excitation
30.3 Emission Spectra
30.4 Incandescence
30.5 Absorption Spectra
30.6 Fluorescence
30.7 Phosphorescence
30.8 Lamps
30.9 Lasers
31 Light Quanta
31.1 Birth of the Quantum Theory
31.2 Quantization and Planck’s Constant
31.3 Photoelectric Effect
31.4 Wave–Particle Duality
31.5 Double-Slit Experiment
31.6 Particles as Waves: Electron Diffraction
31.7 Uncertainty Principle
31.8 Complementarity
PART SEVEN: Atomic and Nuclear Physics
32 The Atom and the Quantum
32.1 Discovery of the Atomic Nucleus
32.2 Discovery of the Electron
32.3 Atomic Spectra: Clues to Atomic Structure
32.4 Bohr Model of the Atom
32.5 Explanation of Quantized Energy Levels: Electron Waves
32.6 Quantum Mechanics
32.7 Correspondence Principle
33 The Atomic Nucleus and Radioactivity
33.1 X-rays and Radioactivity
33.2 Alpha, Beta, and Gamma Rays
33.3 Environmental Radiation
33.4 The Atomic Nucleus and the Strong Force
33.5 Radioactive Half-Life
33.6 Radiation Detectors
33.7 Transmutation of Elements
33.8 Radiometric Dating
34 Nuclear Fission and Fusion
34.1 Nuclear Fission
34.2 Nuclear Fission Reactors
34.3 The Breeder Reactor
34.4 Fission Power
34.5 Mass–Energy Equivalence
34.6 Nuclear Fusion
34.7 Controlling Fusion
PART EIGHT: Relativity
35 Special Theory of Relativity
35.1 Motion Is Relative
35.2 Postulates of the Special Theory of Relativity
35.3 Simultaneity
35.4 Spacetime and Time Dilation
35.5 Addition of Velocities
35.6 Length Contraction
35.7 Relativistic Momentum
35.8 Mass, Energy, and E = mc[sup(2)]
35.9 The Correspondence Principle
36 General Theory of Relativity
36.1 Principle of Equivalence
36.2 Bending of Light by Gravity
36.3 Gravity and Time: Gravitational Red Shift
36.4 Gravity and Space: Motion of Mercury
36.5 Gravity, Space, and a New Geometry
36.6 Gravitational Waves
36.7 Newtonian and Einsteinian Gravitation
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