# Preface

Welcome to *Calculus Volume 3*, an OpenStax resource. This textbook was written to increase student access to high-quality learning materials, maintaining highest standards of academic rigor at little to no cost.

### About OpenStax

OpenStax is a nonprofit based at Rice University, and it’s our mission to improve student access to education. Our first openly licensed college textbook was published in 2012, and our library has since scaled to over 25 books for college and AP^{®} courses used by hundreds of thousands of students. OpenStax Tutor, our low-cost personalized learning tool, is being used in college courses throughout the country. Through our partnerships with philanthropic foundations and our alliance with other educational resource organizations, OpenStax is breaking down the most common barriers to learning and empowering students and instructors to succeed.

### About OpenStax’s resources

#### Customization

*Calculus Volume 3* is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC-BY-NC-SA) license, which means that you can distribute, remix, and build upon the content, as long as you provide attribution to OpenStax and its content contributors, do not use the content for commercial purposes, and distribute the content under the same CC-BY-NC-SA license.

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#### Format

You can access this textbook for free in web view or PDF through OpenStax.org, and for a low cost in print.

### About *Calculus Volume 3*

*Calculus* is designed for the typical two- or three-semester general calculus course, incorporating innovative features to enhance student learning. The book guides students through the core concepts of calculus and helps them understand how those concepts apply to their lives and the world around them. Due to the comprehensive nature of the material, we are offering the book in three volumes for flexibility and efficiency. Volume 3 covers parametric equations and polar coordinates, vectors, functions of several variables, multiple integration, and second-order differential equations.

#### Coverage and scope

Our *Calculus Volume 3* textbook adheres to the scope and sequence of most general calculus courses nationwide. We have worked to make calculus interesting and accessible to students while maintaining the mathematical rigor inherent in the subject. With this objective in mind, the content of the three volumes of *Calculus* have been developed and arranged to provide a logical progression from fundamental to more advanced concepts, building upon what students have already learned and emphasizing connections between topics and between theory and applications. The goal of each section is to enable students not just to recognize concepts, but work with them in ways that will be useful in later courses and future careers. The organization and pedagogical features were developed and vetted with feedback from mathematics educators dedicated to the project.

**Volume 1**

- Chapter 1: Functions and Graphs
- Chapter 2: Limits
- Chapter 3: Derivatives
- Chapter 4: Applications of Derivatives
- Chapter 5: Integration
- Chapter 6: Applications of Integration

**Volume 2**

- Chapter 1: Integration
- Chapter 2: Applications of Integration
- Chapter 3: Techniques of Integration
- Chapter 4: Introduction to Differential Equations
- Chapter 5: Sequences and Series
- Chapter 6: Power Series
- Chapter 7: Parametric Equations and Polar Coordinates

**Volume 3**

- Chapter 1: Parametric Equations and Polar Coordinates
- Chapter 2: Vectors in Space
- Chapter 3: Vector-Valued Functions
- Chapter 4: Differentiation of Functions of Several Variables
- Chapter 5: Multiple Integration
- Chapter 6: Vector Calculus
- Chapter 7: Second-Order Differential Equations

#### Pedagogical foundation

Throughout *Calculus Volume 3* you will find examples and exercises that present classical ideas and techniques as well as modern applications and methods. Derivations and explanations are based on years of classroom experience on the part of long-time calculus professors, striving for a balance of clarity and rigor that has proven successful with their students. Motivational applications cover important topics in probability, biology, ecology, business, and economics, as well as areas of physics, chemistry, engineering, and computer science. **Student Projects** in each chapter give students opportunities to explore interesting sidelights in pure and applied mathematics, from navigating a banked turn to adapting a moon landing vehicle for a new mission to Mars. **Chapter Opening Applications** pose problems that are solved later in the chapter, using the ideas covered in that chapter. Problems include the average distance of Halley’s Comment from the Sun, and the vector field of a hurricane. **Definitions, Rules,** and **Theorems** are highlighted throughout the text, including over 60 **Proofs** of theorems.

#### Assessments that reinforce key concepts

In-chapter **Examples** walk students through problems by posing a question, stepping out a solution, and then asking students to practice the skill with a “Checkpoint” question. The book also includes assessments at the end of each chapter so students can apply what they’ve learned through practice problems. Many exercises are marked with a **[T]** to indicate they are suitable for solution by technology, including calculators or Computer Algebra Systems (CAS). Answers for selected exercises are available in the **Answer Key** at the back of the book. The book also includes assessments at the end of each chapter so students can apply what they’ve learned through practice problems.

#### Early or late transcendentals

The three volumes of *Calculus* are designed to accommodate both Early and Late Transcendental approaches to calculus. Exponential and logarithmic functions are introduced informally in Chapter 1 of Volume 1 and presented in more rigorous terms in Chapter 6 in Volume 1 and Chapter 2 in Volume 2. Differentiation and integration of these functions is covered in Chapters 3–5 in Volume 1 and Chapter 1 in Volume 2 for instructors who want to include them with other types of functions. These discussions, however, are in separate sections that can be skipped for instructors who prefer to wait until the integral definitions are given before teaching the calculus derivations of exponentials and logarithms.

#### Comprehensive art program

Our art program is designed to enhance students’ understanding of concepts through clear and effective illustrations, diagrams, and photographs.

### Additional resources

#### Student and instructor resources

We’ve compiled additional resources for both students and instructors, including Getting Started Guides, an instructor solution manual, and PowerPoint slides. Instructor resources require a verified instructor account, which you can apply for when you log in or create your account on OpenStax.org. Take advantage of these resources to supplement your OpenStax book.

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To reach the Community Hubs, visit www.oercommons.org/hubs/OpenStax.

#### Partner resources

OpenStax Partners are our allies in the mission to make high-quality learning materials affordable and accessible to students and instructors everywhere. Their tools integrate seamlessly with our OpenStax titles at a low cost. To access the partner resources for your text, visit your book page on OpenStax.org.

### About the authors

#### Senior contributing authors

**Gilbert Strang, Massachusetts Institute of Technology**

Dr. Strang received his PhD from UCLA in 1959 and has been teaching mathematics at MIT ever since. His Calculus online textbook is one of eleven that he has published and is the basis from which our final product has been derived and updated for today’s student. Strang is a decorated mathematician and past Rhodes Scholar at Oxford University.

**Edwin “Jed” Herman, University of Wisconsin-Stevens Point **

Dr. Herman earned a BS in Mathematics from Harvey Mudd College in 1985, an MA in Mathematics from UCLA in 1987, and a PhD in Mathematics from the University of Oregon in 1997. He is currently a Professor at the University of Wisconsin-Stevens Point. He has more than 20 years of experience teaching college mathematics, is a student research mentor, is experienced in course development/design, and is also an avid board game designer and player.

#### Contributing authors

Catherine Abbott, Keuka College

Nicoleta Virginia Bila, Fayetteville State University

Sheri J. Boyd, Rollins College

Joyati Debnath, Winona State University

Valeree Falduto, Palm Beach State College

Joseph Lakey, New Mexico State University

Julie Levandosky, Framingham State University

David McCune, William Jewell College

Michelle Merriweather, Bronxville High School

Kirsten R. Messer, Colorado State University – Pueblo

Alfred K. Mulzet, Florida State College at Jacksonville

William Radulovich (retired), Florida State College at Jacksonville

Erica M. Rutter, Arizona State University

David Smith, University of the Virgin Islands

Elaine A. Terry, Saint Joseph’s University

David Torain, Hampton University

#### Reviewers

Marwan A. Abu-Sawwa, Florida State College at Jacksonville

Kenneth J. Bernard, Virginia State University

John Beyers, University of Maryland

Charles Buehrle, Franklin & Marshall College

Matthew Cathey, Wofford College

Michael Cohen, Hofstra University

William DeSalazar, Broward County School System

Murray Eisenberg, University of Massachusetts Amherst

Kristyanna Erickson, Cecil College

Tiernan Fogarty, Oregon Institute of Technology

David French, Tidewater Community College

Marilyn Gloyer, Virginia Commonwealth University

Shawna Haider, Salt Lake Community College

Lance Hemlow, Raritan Valley Community College

Jerry Jared, The Blue Ridge School

Peter Jipsen, Chapman University

David Johnson, Lehigh University

M.R. Khadivi, Jackson State University

Robert J. Krueger, Concordia University

Tor A. Kwembe, Jackson State University

Jean-Marie Magnier, Springfield Technical Community College

Cheryl Chute Miller, SUNY Potsdam

Bagisa Mukherjee, Penn State University, Worthington Scranton Campus

Kasso Okoudjou, University of Maryland College Park

Peter Olszewski, Penn State Erie, The Behrend College

Steven Purtee, Valencia College

Alice Ramos, Bethel College

Doug Shaw, University of Northern Iowa

Hussain Elalaoui-Talibi, Tuskegee University

Jeffrey Taub, Maine Maritime Academy

William Thistleton, SUNY Polytechnic Institute

A. David Trubatch, Montclair State University

Carmen Wright, Jackson State University

Zhenbu Zhang, Jackson State University