# University Physics with Modern Physics Volume 1 (Chapters 1-20)

2^{nd}Edition

Copyright: 2014

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ISBN10: 0077409639 | ISBN13: 9780077409630

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The estimated amount of time this product will be on the market is based on a number of factors, including faculty input to instructional design and the prior revision cycle and updates to academic research-which typically results in a revision cycle ranging from every two to four years for this product. Pricing subject to change at any time.

The estimated amount of time this product will be on the market is based on a number of factors, including faculty input to instructional design and the prior revision cycle and updates to academic research-which typically results in a revision cycle ranging from every two to four years for this product. Pricing subject to change at any time.

### Program Details

### Chapter 0, The Big Picture: Modern Physics Frontiers

## Part 1: Mechanics of Point Particles

### Chapter 1, Overview

#### 1.1, Why Study Physics?

#### 1.2, Working with Numbers

#### 1.3, SI Unit System

#### 1.4, The Scales of Our World

#### 1.5, General Problem-Solving Strategy

#### 1.6, Vectors

### Chapter 2, Motion in a Straight Line

#### 2.1, Introduction to Kinematics

#### 2.2, Position Vector, Displacement Vector, and Distance

#### 2.3, Velocity Vector, Average Velocity, and Speed

#### 2.4, Acceleration Vector

#### 2.5, Computer Solutions and Difference Formulas

#### 2.6, Finding Displacement and Velocity from Acceleration

#### 2.7, Motion with constant Acceleration

#### 2.8, Free Fall

#### 2.9, Reducing Motion in More than One Dimension to One Dimension

### Chapter 3, Motion in Two and Three Dimensions

#### 3.1, Three-Dimensional Coordinate Systems

#### 3.2, Velocity and Acceleration in Two or Three Dimensions

#### 3.3, Ideal Projectile Motion

#### 3.4, Maximum Height and Range of a Projectile

#### 3.5, Realistic Projectile Motion

#### 3.6, Relative Motion

### Chapter 4, Force

#### 4.1, Types of Forces

#### 4.2, Gravitational Force Vector, Weight, and mass

#### 4.3, Net Force

#### 4.4, Newton's Laws

#### 4.5, Ropes and Pulleys

#### 4.6, Applying Newton's Laws

#### 4.7, Friction Force

#### 4.8, Applications of the Friction Force

### Chapter 5, Kinetic Energy, Work, and Power]

#### 5.1, Energy in Our Daily Lives

#### 5.2, Kinetic Energy

#### 5.3, Work

#### 5.4, Work Done by a Constant Force

#### 5.5, Work Done by a Variable Force

#### 5.6, Spring Force

#### 5.7, Power

### Chapter 6, Potential Energy and Energy Conservation

#### 6.1, Potential Energy

#### 6.2, Conservative and Nonconservative Forces

#### 6.3, Work and Potential Energy

#### 6.4, Potential Energy and Force

#### 6.5, Conservation of Mechanical Energy

#### 6.6, Work and Energy for the Spring Force

#### 6.7, Nonconservative Forces and the Work-Energy Theorem

#### 6.8, Potential Energy and Stability

### Chapter 7, Momentum and Collisions

#### 7.1, Linear Momentum

#### 7.2, Impulse

#### 7.3, Conservation of Linear Momentum

#### 7.4, Elastic Collisions in One Dimension

#### 7.5, Elastic Collisions in Two or Three Dimensions

#### 7.6, Totally Inelastic Collisions

#### 7.7, Partially Inelastic Collisions

#### 7.8, Billiards and Chaos

## Part 2: Extended Objects, Matter and Circular Motion

### Chapter 8, Systems of Particles and Extended Objects

#### 8.1, Center of Mass and Center of Gravity

#### 8.2, Center-of-Mass Momentum

#### 8.3, Rocket Motion

#### 8.4, Calculating the Center of Mass

### Chapter 9, Circular Motion

#### 9.1, Polar Coordinates

#### 9.2, Angular Coordinates and Angular Velocity

#### 9.3, Angular Velocity, Angular Frequency, and Period

#### 9.4, Angular and Centripetal Acceleration

#### 9.5, Centripetal Force

#### 9.6, Circular and Linear Motion

#### 9.7, More Examples for Circular Motion

### Chapter 10, Rotation

#### 10.1, Kinetic Energy and Rotation

#### 10.2, Calculation of Moment of inertia

#### 10.3, Rolling without Slipping

#### 10.4, Torque

#### 10.5, Newton's Second Law for Rotation

#### 10.6, Work done by a Torque

#### 10.7, Angular Momentum

#### 10.8, Precession

#### 10.9, Quantized Angular Momentum

### Chapter 11, Static Equilibrium

#### 11.1, Equilibrium Conditions

#### 11.2, Examples Involving Static Equilibrium

#### 11.3, Stability of Structures

### Chapter 12, Gravitation

#### 12.1, Newton's Law of Gravity

#### 12.2, Gravitation near the Surface of the Earth

#### 12.3, Gravitation inside the Earth

#### 12.4, Gravitational Potential Energy

#### 12.5, Kepler's Laws and Planetary Motion

#### 12.6, Satellite Orbits

#### 12.7, Dark Matter

### Chapter 13, Solids and Fluids

#### 13.1, Atoms and the Composition of matter

#### 13.2, States of Matter

#### 13.3, Tension, Compression, and Shear

#### 13.4, Pressure

#### 13.5, Archemedes' Principle

#### 13.6, Ideal Fluid Motion

#### 13.7, Viscosity

#### 13.8, Turbulence and Research Frontiers in Fluid Flow

## Part 3: Oscillations and Waves

### Chapter 14, Oscillations

#### 14.1, Simple Harmonic Motion

#### 14.2, Pendulum Motion

#### 14.3, Work and Energy in Harmonic Oscillations

#### 14.4, Damped Harmonic Motion

#### 14.5, Forced harmonic Motion and Resonance

#### 14.6, Phase Space

#### 14.7, Chaos

### Chapter 15, Waves

#### 15.1, Wave Motion

#### 15.2, Coupled Oscillators

#### 15.3, Mathematical Description of Waves

#### 15.4, Derivation of the Wave Equation

#### 15.5, Waves in Two- and Three-Dimensional Spaces

#### 15.6, Energy, Power, and Intensity of Waves

#### 15.7, Superposition Principle and Interference

#### 15.8, Standing Waves and Resonance

#### 15.9, Research on Waves

### Chapter 16, Sound

#### 16.1, Longitudinal Pressure Waves

#### 16.2, Sound Intensity

#### 16.3, Sound Interference

#### 16.4, Doppler Effect

#### 16.5, Resonance and Music

## Part 4: Thermal Physics

### Chapter 17, Temperature

#### 17.1, Definition of Temperature

#### 17.2, Temperature Ranges

#### 17.3, Measuring Temperature

#### 17.4, Thermal Expansion

#### 17.5, Surface Temperature of the Earth

#### 17.6, Temperature of the Universe

### Chapter 18, Heat and the First Law of Thermodynamics

#### 18.1, Definition of Heat

#### 18.2, Mechanical Equivalent of Heat

#### 18.3, Heat and Work

#### 18.4, First Law of Thermodynamics

#### 18.5, First Law for Special Processes

#### 18.6, Specific Heats of Solids and Fluids

#### 18.7, Latent Heat and Phase Transitions

#### 18.8, Modes of Thermal Energy Transfer

### Chapter 19, Ideal Gases

#### 19.1, Emperical Gas laws

#### 19.2, Ideal Gas Law

#### 19.3, Equipartition Theorem

#### 19.4, Specific Heat of an Ideal Gas

#### 19.5, Adibatic Processes for an Ideal Gas

#### 19.6, Kinetic Theory of Gasses

#### 19.7, Real Gasses

### Chapter 20, The Second Law of Thermodynamics

#### 20.1, Reversible and Irreversible Processes

#### 20.2, Engines and Refrigerators

#### 20.3, Ideal Engines

#### 20.4, Real Engines and Efficiency

#### 20.5, The Second Law of Thermodynamics

#### 20.6, Entropy

#### 20.7, Microscopic Interpretation of Entropy

## Part 5: Electricity

### Chapter 0, The Big Picture: Modern Physics Frontiers

## Part 1: Mechanics of Point Particles

### Chapter 1, Overview

#### 1.1, Why Study Physics?

#### 1.2, Working with Numbers

#### 1.3, SI Unit System

#### 1.4, The Scales of Our World

#### 1.5, General Problem-Solving Strategy

#### 1.6, Vectors

### Chapter 2, Motion in a Straight Line

#### 2.1, Introduction to Kinematics

#### 2.2, Position Vector, Displacement Vector, and Distance

#### 2.3, Velocity Vector, Average Velocity, and Speed

#### 2.4, Acceleration Vector

#### 2.5, Computer Solutions and Difference Formulas

#### 2.6, Finding Displacement and Velocity from Acceleration

#### 2.7, Motion with constant Acceleration

#### 2.8, Free Fall

#### 2.9, Reducing Motion in More than One Dimension to One Dimension

### Chapter 3, Motion in Two and Three Dimensions

#### 3.1, Three-Dimensional Coordinate Systems

#### 3.2, Velocity and Acceleration in Two or Three Dimensions

#### 3.3, Ideal Projectile Motion

#### 3.4, Maximum Height and Range of a Projectile

#### 3.5, Realistic Projectile Motion

#### 3.6, Relative Motion

### Chapter 4, Force

#### 4.1, Types of Forces

#### 4.2, Gravitational Force Vector, Weight, and mass

#### 4.3, Net Force

#### 4.4, Newton's Laws

#### 4.5, Ropes and Pulleys

#### 4.6, Applying Newton's Laws

#### 4.7, Friction Force

#### 4.8, Applications of the Friction Force

### Chapter 5, Kinetic Energy, Work, and Power]

#### 5.1, Energy in Our Daily Lives

#### 5.2, Kinetic Energy

#### 5.3, Work

#### 5.4, Work Done by a Constant Force

#### 5.5, Work Done by a Variable Force

#### 5.6, Spring Force

#### 5.7, Power

### Chapter 6, Potential Energy and Energy Conservation

#### 6.1, Potential Energy

#### 6.2, Conservative and Nonconservative Forces

#### 6.3, Work and Potential Energy

#### 6.4, Potential Energy and Force

#### 6.5, Conservation of Mechanical Energy

#### 6.6, Work and Energy for the Spring Force

#### 6.7, Nonconservative Forces and the Work-Energy Theorem

#### 6.8, Potential Energy and Stability

### Chapter 7, Momentum and Collisions

#### 7.1, Linear Momentum

#### 7.2, Impulse

#### 7.3, Conservation of Linear Momentum

#### 7.4, Elastic Collisions in One Dimension

#### 7.5, Elastic Collisions in Two or Three Dimensions

#### 7.6, Totally Inelastic Collisions

#### 7.7, Partially Inelastic Collisions

#### 7.8, Billiards and Chaos

## Part 2: Extended Objects, Matter and Circular Motion

### Chapter 8, Systems of Particles and Extended Objects

#### 8.1, Center of Mass and Center of Gravity

#### 8.2, Center-of-Mass Momentum

#### 8.3, Rocket Motion

#### 8.4, Calculating the Center of Mass

### Chapter 9, Circular Motion

#### 9.1, Polar Coordinates

#### 9.2, Angular Coordinates and Angular Velocity

#### 9.3, Angular Velocity, Angular Frequency, and Period

#### 9.4, Angular and Centripetal Acceleration

#### 9.5, Centripetal Force

#### 9.6, Circular and Linear Motion

#### 9.7, More Examples for Circular Motion

### Chapter 10, Rotation

#### 10.1, Kinetic Energy and Rotation

#### 10.2, Calculation of Moment of inertia

#### 10.3, Rolling without Slipping

#### 10.4, Torque

#### 10.5, Newton's Second Law for Rotation

#### 10.6, Work done by a Torque

#### 10.7, Angular Momentum

#### 10.8, Precession

#### 10.9, Quantized Angular Momentum

### Chapter 11, Static Equilibrium

#### 11.1, Equilibrium Conditions

#### 11.2, Examples Involving Static Equilibrium

#### 11.3, Stability of Structures

### Chapter 12, Gravitation

#### 12.1, Newton's Law of Gravity

#### 12.2, Gravitation near the Surface of the Earth

#### 12.3, Gravitation inside the Earth

#### 12.4, Gravitational Potential Energy

#### 12.5, Kepler's Laws and Planetary Motion

#### 12.6, Satellite Orbits

#### 12.7, Dark Matter

### Chapter 13, Solids and Fluids

#### 13.1, Atoms and the Composition of matter

#### 13.2, States of Matter

#### 13.3, Tension, Compression, and Shear

#### 13.4, Pressure

#### 13.5, Archemedes' Principle

#### 13.6, Ideal Fluid Motion

#### 13.7, Viscosity

#### 13.8, Turbulence and Research Frontiers in Fluid Flow

## Part 3: Oscillations and Waves

### Chapter 14, Oscillations

#### 14.1, Simple Harmonic Motion

#### 14.2, Pendulum Motion

#### 14.3, Work and Energy in Harmonic Oscillations

#### 14.4, Damped Harmonic Motion

#### 14.5, Forced harmonic Motion and Resonance

#### 14.6, Phase Space

#### 14.7, Chaos

### Chapter 15, Waves

#### 15.1, Wave Motion

#### 15.2, Coupled Oscillators

#### 15.3, Mathematical Description of Waves

#### 15.4, Derivation of the Wave Equation

#### 15.5, Waves in Two- and Three-Dimensional Spaces

#### 15.6, Energy, Power, and Intensity of Waves

#### 15.7, Superposition Principle and Interference

#### 15.8, Standing Waves and Resonance

#### 15.9, Research on Waves

### Chapter 16, Sound

#### 16.1, Longitudinal Pressure Waves

#### 16.2, Sound Intensity

#### 16.3, Sound Interference

#### 16.4, Doppler Effect

#### 16.5, Resonance and Music

## Part 4: Thermal Physics

### Chapter 17, Temperature

#### 17.1, Definition of Temperature

#### 17.2, Temperature Ranges

#### 17.3, Measuring Temperature

#### 17.4, Thermal Expansion

#### 17.5, Surface Temperature of the Earth

#### 17.6, Temperature of the Universe

### Chapter 18, Heat and the First Law of Thermodynamics

#### 18.1, Definition of Heat

#### 18.2, Mechanical Equivalent of Heat

#### 18.3, Heat and Work

#### 18.4, First Law of Thermodynamics

#### 18.5, First Law for Special Processes

#### 18.6, Specific Heats of Solids and Fluids

#### 18.7, Latent Heat and Phase Transitions

#### 18.8, Modes of Thermal Energy Transfer

### Chapter 19, Ideal Gases

#### 19.1, Emperical Gas laws

#### 19.2, Ideal Gas Law

#### 19.3, Equipartition Theorem

#### 19.4, Specific Heat of an Ideal Gas

#### 19.5, Adibatic Processes for an Ideal Gas

#### 19.6, Kinetic Theory of Gasses

#### 19.7, Real Gasses

### Chapter 20, The Second Law of Thermodynamics

#### 20.1, Reversible and Irreversible Processes

#### 20.2, Engines and Refrigerators

#### 20.3, Ideal Engines

#### 20.4, Real Engines and Efficiency

#### 20.5, The Second Law of Thermodynamics

#### 20.6, Entropy

#### 20.7, Microscopic Interpretation of Entropy

## Part 5: Electricity

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