9780201473971

This groundbreaking text combines the second and third semesters of calculus with the first and second semesters of calculus-based physics. Used successfully at the authors' school in a two-semester course, the text provides full integration of the math and physics. Through text and problems, the authors carefully develop the calculus so that it can be used in many physical applications. In turn, the physics provides examples for the development of the calculus concepts. As a result, students gain a full understanding of calculus and its relevance to physics.

Dr. Andrew Rex received his Ph.D. in Physics from the University of Virginia in 1982 after receiving an B.A. in Physics from Illinois Wesleyan University. At Virginia his research focused on experimental solid state physics. Since 1982 he has been a faculty member at the University of Puget Sound, and he currently holds the rank of Professor. His principal research interests have been in Mossbauer spectroscopy, the physics of sports, and Maxwell's demon and information theory. At the University of Puget Sound he has served as Director of the Pre-Engineering Program, Director of the university's Honors Program and Chair of the Physics Department.

Dr. Rex has published five books including Integrated Physics and Calculus, Vols. 1 and 2, Addison-Wesley 1999, and has written a number of scientific articles and papers. He is a member of the American Association of Physics Teachers, Phi Kappa Phi, Sigma Xi and Sigma Pi Sigma.

In 1994 he received a three-year grant from the U.S. Department of Education to develop a program that integrates freshman physics and calculus into a single course and to write a textbook for that course.

Dr. Martin Jackson received his Ph.D. in Physics from the University of Oregon in 1990 after receiving a M.S. degree in Physics there in 1985 and a B.S. in Physics and Mathematics from the University of Puget Sound in 1984. He was named an Assistant Professor at the University of Puget Sound in 1990 in the Department of Mathematics and Computer Science and Associate Professor in 1996.

He has published scientific articles in the Journal of Differential Geometry, the American Journal of Physics, the Journal of Physics, the Journal of Mathematical Physics, and other publications.

In 1994 he and Dr. Andrew Rex received a three-year grant from the U.S. Department of Education to develop a program that integrates freshman physics and calculus into a single course and to write a textbook for that course.

Functions and Vectors

1

(46)

Real Numbers, Scalars, and Vectors

1

(18)

Functions

19

(8)

Vector-Output Functions

27

(3)

Measurements, Dimensions, and SI Units

30

(8)

Mathematical Models in Physics

38

(1)

Problems

39

(8)

Derivatives and Their Applications in Kinematics

47

(46)

Limits and Continuity

47

(11)

Speed and Velocity in One-Dimensional Motion

58

(5)

Derivatives

63

(11)

Higher-Order Derivatives and Acceleration

74

(4)

Calculus of Vector-Output Functions

78

(7)

Problems

85

(8)

Definite Integrals and Antiderivatives

93

(42)

The Definite Integral

93

(9)

The Antiderivative

102

(7)

The Fundamental Theorems of Calculus

109

(5)

Applications to Kinematics---One Dimension

114

(5)

One-Dimensional Motion with Constant Acceleration

119

(5)

Applications to Kinematics---Two and Three Dimensions

124

(2)

Problems

126

(9)

Kinematics and Curves in Two and Three Dimensions

135

(30)

Examples of Kinematics in Two and Three Dimensions

135

(10)

Tangent and Principal Normal Vectors

145

(5)

Curvature

150

(8)

The Length of a Curve

158

(1)

Problems

159

(6)

Newton's Laws of Motion

165

(28)

Newton's Laws of Motion

165

(6)

Applications of Newton's Second Law

171

(16)

Newton's Second Law with Forces Varying in Time

187

(2)

Problems

189

(4)

Differential Equations

193

(30)

Introduction to Differential Equations

193

(5)

Analyzing First-Order Differential Equations

198

(10)

More Applications of Newton's Second Law

208

(5)

Further Applications of Differential Equations in Physics

213

(5)

Problems

218

(5)

Work and Line Integrals

223

(50)

Work in One-Dimensional Motion

223

(8)

Work and the Dot Product

231

(5)

Line Integrals and Work Done by a Variable Force in Three Dimensions

236

(6)

Power

242

(3)

Energy

245

(13)

The Relationship Between Force and Energy in One-Dimensional Motion

258

(6)

Problems

264

(9)

Evaluating Definite and Indefinite Integrals

273

(34)

Symbolic Methods of Finding Antiderivatives

274

(8)

Bounds on a Function

282

(5)

Numerical Approximation of a Definite Integral from Data

287

(3)

Numerical Approximation of Definite Integrals

290

(11)

Problems

301

(6)

Systems of Particles, Momentum, and Collisions

307

(28)

Center of Mass

307

(5)

Momentum

312

(4)

Collisions in One Dimension

316

(3)

Collisions in Two Dimensions

319

(5)

Center-of-Mass Motion in Collisions

324

(3)

The Rocket Problem

327

(3)

Problems

330

(5)

Rotational Motion and the Cross Product

335

(42)

Kinematics of Rotational Motion

335

(7)

Rotational Dynamics

342

(8)

Angular Momentum

350

(2)

Rolling Bodies

352

(5)

The Cross Product

357

(7)

Rotational Dynamics in Vector Form

364

(4)

Power, Work, and Energy

368

(2)

Problems

370

(7)

Sequences and Series

377

(32)

Introduction to Sequences

377

(6)

Sequences

383

(4)

Introduction to Series

387

(5)

Convergence Arguments for Series

392

(5)

Power Series

397

(2)

Taylor Series

399

(6)

Problems

405

(4)

Oscillations and Second-Order Differential Equations

409

(38)

The Simple Harmonic Oscillator

409

(9)

State-space and Systems of First-Order Differential Equations

418

(7)

The Simple Pendulum

425

(6)

Damped Harmonic Motion

431

(5)

Harmonic Motion, Equilibrium, and the Generalized Potential Energy

436

(1)

The Physical Pendulum

437

(3)

Problems

440

(7)

Functions of More Than One Variable

447

(30)

Describing Planes in Space

447

(4)

Functions of Two Variables

451

(7)

Examples of Surfaces

458

(6)

Functions of Three Variables

464

(2)

Limits and Continuity

466

(5)

Problems

471

(6)

Multiple Integrals

477

(44)

Double Integrals

477

(10)

Double Integrals Over Other Regions

487

(8)

Triple Integrals

495

(12)

Applications of Multiple Integrals in Physics

507

(8)

Problems

515

(6)

Gravitation

521

(30)

Background and History

521

(2)

Kepler's Laws of Planetary Motion

523

(3)

Newton's Law of Gravitation

526

(5)

Gravitational Potential Energy

531

(3)

The Gravitational Force Due to a Spherically Symmetric Body

534

(4)

More on Earth, the Planets, and Satellites

538

(6)

The Constant G and Fundamental Forces

544

(1)

Problems

545

(6)

Electric Charges and Forces

551

(20)

Introduction to Electric Charge

551

(2)

Coulomb's Law

553

(5)

Forces Due to Multiple or Extended Charges

558

(10)

Problems

568

(3)

Vector Fields and Electric Fields

571

(32)

Introduction to Vector Fields

571

(7)

Electric Fields

578

(14)

The Motion of Charged Particles in an Electric Field

592

(7)

Problems

599

(4)

Partial Derivatives, Gradients, and Electric Potential

603

(52)

Partial Derivatives

603

(7)

Tangent Planes and Linear Approximations

610

(4)

Gradient and Directional Derivative

614

(8)

Electric Potential

622

(11)

Electric Potential and Electric Fields

633

(3)

Calculating Electric Potentials

636

(7)

Higher-Order Partial Derivatives

643

(4)

Problems

647

(8)

Capacitors, Dielectrics, and Electric Current

655

(32)

Capacitors

655

(12)

Dielectrics

667

(3)

Electric Current

670

(9)

Conductors, Insulators, Semiconductors, and Superconductors

679

(2)

Problems

681

(6)

Optimization

687

(20)

Optimization for Functions of One Variable---Review

687

(4)

Local Extrema for Functions of Several Variables

691

(3)

A Second Derivative Test

694

(4)

Global Extrema

698

(2)

Constrained Optimization

700

(3)

Problems

703

(4)

dc Circuits

707

(30)

Batteries: Real and Ideal

707

(4)

Series and Parallel Combinations of Resistors

711

(8)

Multiloop Circuits

719

(3)

Measuring Instruments

722

(2)

RC Circuits

724

(8)

Problems

732

(5)

Line Integrals

737

(18)

Curves

737

(3)

Line Integrals

740

(5)

The Fundamental Theorem of Calculus for Line Integrals

745

(3)

The Normal Line Integral

748

(3)

Problems

751

(4)

Gauss's Law and Surface Integrals

755

(32)

Gauss's Law

755

(18)

Surfaces

773

(6)

Surface Integrals

779

(4)

Problems

783

(4)

Magnetic Fields I

787

(30)

Background and History

787

(2)

The Magnetic Force on an Electric Charge

789

(10)

The Force on a Current-Carrying Conductor

799

(4)

Current Loops and Magnetic Dipoles in Magnetic Fields

803

(6)

The Hall Effect

809

(3)

Problems

812

(5)

Magnetic Fields II; Divergence and Curl

817

(42)

The Biot-Savart Law

818

(5)

Ampere's Law

823

(6)

Parallel Current-Carrying Wires

829

(2)

Maxwell's Displacement Current

831

(3)

Magnetism in Matter

834

(4)

Divergence

838

(7)

Curl

845

(5)

Problems

850

(9)

Faraday's Law and Inductance

859

(38)

Faraday's Law

859

(14)

Inductance

873

(17)

Problems

890

(7)

Vector Calculus and Maxwell's Equations

897

(40)

Vector Calculus in the Plane

897

(8)

Vector Calculus in Space

905

(7)

Maxwell's Equations

912

(5)

Electromagnetic Waves

917

(10)

Electromagnetism, Relativity, and Quantum Physics

927

(4)

Problems

931

(6)

The Bohr Atom

937

(1)

Background: Early Theories and Experiments

937

(2)

The Bohr Model

939

(7)

Experimental Verification

946

(6)

The Bohr Model in Perspective

952

(2)

Problems

954

(1)

Appendices

A-1

A Mathematics

A-1

B The International System of Units (SI)

A-6

C Conversion Factors

A-8

D The Elements

A-11

E Astrophysical Data

A-14

F A Brief Table of Integrals

A-15

Answers to Selected Odd-Numbered Problems

AN-1

Index

I-1

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Integrated Physics and Calculus, Volume 2

0201473976

Summary

Author Biography

Table of Contents

Supplemental Materials

Rewards Program