1 Measurement

1.1 MEASURING THINGS, INCLUDING LENGTHS

* What Is Physics?

* Measuring Things

* The International System of Units

* Changing Units

* Length

* Significant Figures and Decimal Places

1.2 TIME

* Time

1.3 MASS

* Mass

o The Standard Kilogram

o Kibble Balance

o A Second Mass Standard

o Density

REVIEW & SUMMARY

PROBLEMS

2 Motion Along a Straight Line

2.1 POSITION, DISPLACEMENT, AND AVERAGE VELOCITY

* What Is Physics?

* Motion

* Position and Displacement

* Average Velocity and Average Speed

2.2 INSTANTANEOUS VELOCITY AND SPEED

* Instantaneous Velocity and Speed

2.3 ACCELERATION

* Acceleration

2.4 CONSTANT ACCELERATION

* Constant Acceleration: A Special Case

* Another Look at Constant Acceleration

2.5 FREE-FALL ACCELERATION

* Free-Fall Acceleration

2.6 GRAPHICAL INTEGRATION IN MOTION ANALYSIS

* Graphical Integration in Motion Analysis

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

3 Vectors

3.1 VECTORS AND THEIR COMPONENTS

* What Is Physics?

* Vectors and Scalars

* Adding Vectors Geometrically

* Components of Vectors

3.2 UNIT VECTORS, ADDING VECTORS BY COMPONENTS

* Unit Vectors

* Adding Vectors by Components

* Vectors and the Laws of Physics

3.3 MULTIPLYING VECTORS

* Multiplying Vectors

* Multiplying a Vector by a Scalar

* Multiplying a Vector by a Vector

* The Scalar Product

* The Vector Product

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

4 Motion in Two and Three Dimensions

4.1 POSITION AND DISPLACEMENT

* What Is Physics?

* Position and Displacement

4.2 AVERAGE VELOCITY AND INSTANTANEOUS VELOCITY

* Average Velocity and Instantaneous Velocity

4.3 AVERAGE ACCELERATION AND INSTANTANEOUS ACCELERATION

* Average Acceleration and Instantaneous Acceleration

4.4 PROJECTILE MOTION

* Projectile Motion

o Two Golf Balls

o A Great Student Rouser

o The Horizontal Motion

o The Vertical Motion

o The Equation of the Path

o The Horizontal R

o The Effects of the Air

4.5 UNIFORM CIRCULAR MOTION

* Uniform Circular Motion

o Proof of Eq. 4.5.1

4.6 RELATIVE MOTION IN ONE DIMENSION

* Relative Motion in One Dimension

4.7 RELATIVE MOTION IN TWO DIMENSIONS

* Relative Motion in Two Dimensions

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

5 Force and Motion--I

5.1 NEWTON'S FIRST AND SECOND LAWS

* What Is Physics?

* Newtonian Mechanics

* Newton's First Law

* Force

o Inertial Reference Frames

* Mass

* Newton's Second Law

5.2 SOME PARTICULAR FORCES

* Some Particular Forces

o The Gravitational Force

o Weight

o The Normal Force

o Friction

o Tension

5.3 APPLYING NEWTON'S LAWS

* Newton's Third Law

* Applying Newton's Laws

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

6 Force and Motion--II

6.1 FRICTION

* What Is Physics?

* Friction

* Properties of Friction

6.2 THE DRAG FORCE AND TERMINAL SPEED

* The Drag Force and Terminal Speed

6.3 UNIFORM CIRCULAR MOTION

* Uniform Circular Motion

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

7 Kinetic Energy and Work

7.1 KINETIC ENERGY

* What Is Physics?

* What Is Energy?

* Kinetic Energy

7.2 WORK AND KINETIC ENERGY

* Work

* Work and Kinetic Energy

o Finding an Expression for Work

o Work-Kinetic Energy Theorem

7.3 WORK DONE BY THE GRAVITATIONAL FORCE

* Work Done by the Gravitational Force

o Work Done in Lifting and Lowering an Object

7.4 WORK DONE BY A SPRING FORCE

* Work Done by a Spring Force

o The Spring Force

o The Work Done by a Spring Force

o The Work Done by an Applied Force

7.5 WORK DONE BY A GENERAL VARIABLE FORCE

* Work Done by a General Variable Force

o One-Dimensional Analysis

o Three-Dimensional Analysis

o Work-Kinetic Energy Theorem with a Variable Force

7.6 POWER

* Power

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

8 Potential Energy and Conservation of Energy

8.1 POTENTIAL ENERGY

* What Is Physics?

* Work and Potential Energy

o Conservative and Nonconservative Forces

* Path Independence of Conservative Forces

o Proof of Equation 8.1.2

* Determining Potential Energy Values

o Gravitational Potential Energy

o Elastic Potential Energy

8.2 CONSERVATION OF MECHANICAL ENERGY

* Conservation of Mechanical Energy

8.3 READING A POTENTIAL ENERGY CURVE

* Reading a Potential Energy Curve

o Finding the Force Analytically

o The Potential Energy Curve

o Turning Points

o Equilibrium Points

8.4 WORK DONE ON A SYSTEM BY AN EXTERNAL FORCE

* Work Done on a System by an External Force

o No Friction Involved

o Friction Involved

8.5 CONSERVATION OF ENERGY

* Conservation of Energy

o Isolated System

o External Forces and Internal Energy Transfers

o Power

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

9 Center of Mass and Linear Momentum

9.1 CENTER OF MASS

* What Is Physics?

* The Center of Mass

o Systems of Particles

o Solid Bodies

9.2 NEWTON'S SECOND LAW FOR A SYSTEM OF PARTICLES

* Newton's Second Law for a System of Particles

o Proof of Equation 9.2.1

9.3 LINEAR MOMENTUM

* Linear Momentum

* The Linear Momentum of a System of Particles

9.4 COLLISION AND IMPULSE

* Collision and Impulse

o Single Collision

o Series of Collisions

9.5 CONSERVATION OF LINEAR MOMENTUM

* Conservation of Linear Momentum

9.6 MOMENTUM AND KINETIC ENERGY IN COLLISIONS

* Momentum and Kinetic Energy in Collisions

* Inelastic Collisions in One Dimension

o One-Dimensional Inelastic Collision

o One-Dimensional Completely Inelastic Collision

o Velocity of the Center of Mass

9.7 ELASTIC COLLISIONS IN ONE DIMENSION

* Elastic Collisions in One Dimension

o Stationary Target

o Moving Target

9.8 COLLISIONS IN TWO DIMENSIONS

* Collisions in Two Dimensions

9.9 SYSTEMS WITH VARYING MASS: A ROCKET

* Systems with Varying Mass: A Rocket

o Finding the Acceleration

o Finding the Velocity

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

10 Rotation

10.1 ROTATIONAL VARIABLES

* What Is Physics?

* Rotational Variables

o Angular Position

o Angular Displacement

o Angular Velocity

o Angular Acceleration

* Are Angular Quantities Vectors?

10.2 ROTATION WITH CONSTANT ANGULAR ACCELERATION

* Rotation with Constant Angular Acceleration

10.3 RELATING THE LINEAR AND ANGULAR VARIABLES

* Relating the Linear and Angular Variables

o The Position

o The Speed

o The Acceleration

10.4 KINETIC ENERGY OF ROTATION

* Kinetic Energy of Rotation

10.5 CALCULATING THE ROTATIONAL INERTIA

* Calculating the Rotational Inertia

o Parallel-Axis Theorem

o Proof of the Parallel-Axis Theorem

10.6 TORQUE

* Torque

10.7 NEWTON'S SECOND LAW FOR ROTATION

* Newton's Second Law for Rotation

o Proof of Equation 10.7.1

10.8 WORK AND ROTATIONAL KINETIC ENERGY

* Work and Rotational Kinetic Energy

o Proof of Eqs. 10.8.4 through 10.8.7

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

11 Rolling, Torque, and Angular Momentum

11.1 ROLLING AS TRANSLATION AND ROTATION COMBINED

* What Is Physics?

* Rolling as Translation and Rotation Combined

o Rolling as Pure Rotation

11.2 FORCES AND KINETIC ENERGY OF ROLLING

* The Kinetic Energy of Rolling

* The Forces of Rolling

o Friction and Rolling

o Rolling Down a Ramp

11.3 THE YO-YO

* The Yo-Yo

11.4 TORQUE REVISITED

* Torque Revisited

11.5 ANGULAR MOMENTUM

* Angular Momentum

11.6 NEWTON'S SECOND LAW IN ANGULAR FORM

* Newton's Second Law in Angular Form

o Proof of Equation 11.6.2

11.7 ANGULAR MOMENTUM OF A RIGID BODY

* The Angular Momentum of a System of Particles

* The Angular Momentum of a Rigid Body Rotating About a Fixed Axis

11.8 CONSERVATION OF ANGULAR MOMENTUM

* Conservation of Angular Momentum

11.9 PRECESSION OF A GYROSCOPE

* Precession of a Gyroscope

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

12 Equilibrium and Elasticity

12.1 EQUILIBRIUM

* What Is Physics?

* Equilibrium

* The Requirements of Equilibrium

* The Center of Gravity

o Proof

12.2 SOME EXAMPLES OF STATIC EQUILIBRIUM

* Some Examples of Static Equilibrium

12.3 ELASTICITY

* Indeterminate Structures

* Elasticity

o Tension and Compression

o Shearing

o Hydraulic Stress

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

13 Gravitation

13.1 NEWTON'S LAW OF GRAVITATION

* What Is Physics?

* Newton's Law of Gravitation

13.2 GRAVITATION AND THE PRINCIPLE OF SUPERPOSITION

* Gravitation and the Principle of Superposition

13.3 GRAVITATION NEAR EARTH'S SURFACE

* Gravitation Near Earth's Surface

13.4 GRAVITATION INSIDE EARTH

* Gravitation Inside Earth

13.5 GRAVITATIONAL POTENTIAL ENERGY

* Gravitational Potential Energy

o Proof of Equation 13.5.1

o Path Independence

o Potential Energy and Force

o Escape Speed

13.6 PLANETS AND SATELLITES: KEPLER'S LAWS

* Planets and Satellites: Kepler's Laws

13.7 SATELLITES: ORBITS AND ENERGY

* Satellites: Orbits and Energy

13.8 EINSTEIN AND GRAVITATION

* Einstein and Gravitation

o Principle of Equivalence

o Curvature of Space

o Black Holes

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

14 Fluids

14.1 FLUIDS, DENSITY, AND PRESSURE

* What Is Physics?

* What Is a Fluid?

* Density and Pressure

o Density

o Pressure

14.2 FLUIDS AT REST

* Fluids at Rest

14.3 MEASURING PRESSURE

* Measuring Pressure

o The Mercury Barometer

o The Open-Tube Manometer

14.4 PASCAL'S PRINCIPLE

* Pascal's Principle

o Demonstrating Pascal's Principle

o Pascal's Principle and the Hydraulic Lever

14.5 ARCHIMEDES' PRINCIPLE

* Archimedes' Principle

o Floating

o Apparent Weight in a Fluid

14.6 THE EQUATION OF CONTINUITY

* Ideal Fluids in Motion

* The Equation of Continuity

14.7 BERNOULLI'S EQUATION

* Bernoulli's Equation

o Proof of Bernoulli's Equation

REVIEW & SUMMARY

QUESTIONS

PROBLEMS

15 Oscillations

15.1 SIMPLE HARMONIC MOTION

* What Is Physics?

* Simple Harmonic Motion

o The Velocity of SHM

o The Acceleration of SHM

* The Force Law for Simple Harmonic Motion

15.2 ENERGY IN SIMPLE HARMONIC MOTION

* Energy in Simple Harmonic Motion

15.3 AN ANGULAR SIMPLE HARMONIC OSCILLATOR

* An Angular Simple Harmonic Oscillator

15.4 PENDULUMS, CIRCULAR MOTION

* Pendulums

o The Simple Pendulum

o The Physical Pendulum

o Measuring g

* Simple Harmonic...