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James Stewart's CALCULUS texts are widely renowned for their mathematical precision and accuracy, clarity of exposition, and outstanding examples and problem sets. Millions of students worldwide have explored calculus through Stewart's trademark style, while instructors have turned to his approach time and time again. In the Eighth Edition of SINGLE VARIABLE CALCULUS, Stewart continues to set the standard for the course while adding carefully revised content. The patient explanations, superb exercises, focus on problem solving, and carefully graded problem sets that have made Stewart's texts best-sellers continue to provide a strong foundation for the Eighth Edition. From the most unprepared student to the most mathematically gifted, Stewart's writing and presentation serve to enhance understanding and build confidence.

James Stewart, McMaster University

The late James Stewart received his M.S. from Stanford University and his Ph.D. from the University of Toronto. He did research at the University of London and was influenced by the famous mathematician George Polya at Stanford University. Stewart was most recently Professor of Mathematics at McMaster University, and his research field was harmonic analysis. Stewart was the author of a best-selling calculus textbook series published by Cengage Learning, including CALCULUS, CALCULUS: EARLY TRANSCENDENTALS, and CALCULUS: CONCEPTS AND CONTEXTS, as well as a series of precalculus texts.
  • The data in examples and exercises have been updated. New examples have been added and the solutions to some of the existing examples have been amplified.
  • Several new application based problems in the book have been added to help the students strengthen the understanding of concepts and make the leap to discovering the impact of Calculus in its various applications.
  • Two new projects have been added: the project, Controlling Red Blood Cell Loss During Surgery, describes the ANH procedure, in which blood is extracted from the patient before an operation and is replaced by saline solution. This dilutes the patient’s blood so that fewer red blood cells are lost during bleeding and the extracted blood is returned to the patient after surgery. The project, Planes and Birds: Minimizing Energy, asks how birds can minimize power and energy by flapping their wings versus gliding.
  • More than 20% of the exercises in each chapter are new.
  • Stewart's writing style speaks clearly and directly to students, guiding them through key ideas, theorems, and problem-solving steps, and encouraging them to think as they read and learn calculus.
  • Every concept is supported by thoughtfully worked examples—many with step-by-step explanations—and carefully chosen exercises. The quality of this pedagogical system is what sets Stewart's texts above others.
  • Examples are not only models for problem solving or a means of demonstrating techniques; they also encourage students to develop an analytic view of the subject. To provide further insight into mathematical concepts, many of these detailed examples display solutions that are presented graphically, analytically, and/or numerically. Margin notes expand on and clarify the steps of the solution.
  • The text's clean, user-friendly design provides a clear presentation of calculus. The art program, with its functional and consistent use of color, helps students identify and review mathematical concepts more easily.
  • The topic of Differential Equations is unified by the theme of modeling. Qualitative, numerical, and analytic approaches are given equal consideration.
  • Stewart draws on physics, engineering, chemistry, biology, medicine, and social science to motivate students and demonstrate the power of calculus as a problem-solving tool in a wide variety of fields.
  • Stewart's presentation repeatedly provides answers to the question, “When will I use this?” Students will find many examples of how calculus is used as a problem-solving tool in fields such as physics, engineering, chemistry, biology, medicine, and the social sciences.
  • Stewart's text offers an extensive collection of more than 8,000 quality exercises. Each exercise set is carefully graded, progressing from skill-development problems to more challenging problems involving applications and proofs. The wide variety of types of exercises includes many technology-oriented, thought-provoking, real, and engaging problems.
  • Conceptual exercises encourage the development of communication skills by explicitly requesting descriptions, conjectures, and explanations. These exercises stimulate critical thinking and reinforce the concepts of calculus.
  • A wealth of engaging projects reinforces concepts. "Writing Projects" ask students to compare present-day methods with those of the founders of calculus. "Discovery Projects" anticipate results to be discussed later. "Applied Projects" feature content that engages student interest and demonstrates the real-world use of mathematics. "Laboratory Projects" anticipate results to be discussed later or encourage discovery through pattern recognition.
  • Comprehensive review sections follow each chapter and further support conceptual understanding. A "Concept Check" and "True/False Quiz" allow students to prepare for upcoming tests through ideas and skill-building.
  • "Strategies" sections (based on George Polya's problem-solving methodology) help students select what techniques they'll need to solve problems in situations where the choice is not obvious, and help them develop true problem-solving skills and intuition.
  • Historical and biographical margin notes enliven the course and show students that mathematics was developed to help explain and represent natural phenomena.
  • More challenging exercises called "Problems Plus" follow the end-of-chapter exercises. These sections reinforce concepts by requiring students to apply techniques from more than one chapter of the text, and by patiently showing them how to approach a challenging problem.
To the Student.
Diagnostic Tests.
A Preview of Calculus.
Four Ways to Represent a Function.
Mathematical Models: A Catalog of Essential Functions.
New Functions from Old Functions.
The Tangent and Velocity Problems.
The Limit of a Function.
Calculating Limits Using the Limit Laws.
The Precise Definition of a Limit.
Principles of Problem Solving.
Derivatives and Rates of Change.
Writing Project: Early Methods for Finding Tangents.
The Derivative as a Function.
Differentiation Formulas.
Applied Project: Building a Better Roller Coaster.
Derivatives of Trigonometric Functions.
The Chain Rule.
Applied Project: Where Should a Pilot Start Descent?
Implicit Differentiation.
Laboratory Project: Families of Implicit Curves.
Rates of Change in the Natural and Social Sciences.
Related Rates.
Linear Approximations and Differentials.
Laboratory Project: Taylor Polynomials.
Problems Plus.
Maximum and Minimum Values.
Applied Project: The Calculus of Rainbows.
The Mean Value Theorem.
How Derivatives Affect the Shape of a Graph.
Limits at Infinity; Horizontal Asymptotes.
Summary of Curve Sketching.
Graphing with Calculus and Calculators.
Optimization Problems.
Applied Project: The Shape of a Can.
Applied Project: Planes and Birds: Minimizing Energy.
Newton’s Method.
Problems Plus.
Areas and Distances.
The Definite Integral.
Discovery Project: Area Functions.
The Fundamental Theorem of Calculus.
Indefinite Integrals and the Net Change Theorem.
Writing Project: Newton, Leibniz, and the Invention of Calculus.
The Substitution Rule.
Problems Plus.
Areas Between Curves.
Applied Project: The Gini Index.
Volumes by Cylindrical Shells.
Average Value of a Function.
Applied Project: Calculus and Baseball.
Problems Plus.
Inverse Functions.
Instructors may cover either Sections 6.2-6.4 or Sections 6.2*-6.4*
Exponential Functions and Their Derivatives.
Logarithmic Functions.
Derivatives of Logarithmic Functions.
The Natural Logarithmic Function
The Natural Exponential Function.
General Logarithmic and Exponential Functions.
Exponential Growth and Decay.
Applied Project: Controlling Red Blood Cell Loss During Surgery.
Inverse Trigonometric Functions.
Applied Project: Where to Sit at the Movies.
Hyperbolic Functions.
Indeterminate Forms and l’Hospital’s Rule.
Writing Project: The Origins of l’ Hospital’s Rule
Problems Plus.
Integration by Parts.
Trigonometric Integrals.
Trigonometric Substitution.
Integration of Rational Functions by Partial Fractions.
Strategy for Integration.
Integration Using Tables and Computer Algebra Systems.
Discovery Project: Patterns in Integrals.
Approximate Integration.
Improper Integrals.
Problems Plus.
Arc Length.
Discovery Project: Arc Length Contest.
Area of a Surface of Revolution.
Discovery Project: Rotating on a Slant.
Applications to Physics and Engineering.
Discovery Project: Complementary Coffee Cups.
Applications to Economics and Biology.
Problems Plus.
Modeling with Differential Equations.
Direction Fields and Euler’s Method.
Separable Equations.
Applied Project: How Fast Does a Tank Drain?
Applied Project: Which is Faster, Going Up or Coming Down?
Models for Population Growth.
Linear Equations.
Predator-Prey Systems.
Problems Plus.
Curves Defined by Parametric Equations.
Laboratory Project: Running Circles Around Circles.
Calculus with Parametric Curves.
Laboratory Project: Bézier Curves.
Polar Coordinates.
Laboratory Project: Families of Polar Curves.
Areas and Lengths in Polar Coordinates.
Conic Sections.
Conic Sections in Polar Coordinates.
Problems Plus.
Laboratory Project: Logistic Sequences.
The Integral Test and Estimates of Sums.
The Comparison Tests.
Alternating Series.
Absolute Convergence and the Ratio and Root Tests.
Strategy for Testing Series.
Power Series.
Representations of Functions as Power Series.
Taylor and Maclaurin Series.
Laboratory Project: An Elusive Limit.
Writing Project: How Newton Discovered the Binomial Series.
Applications of Taylor Polynomials.
Applied Project: Radiation from the Stars.
Problems Plus.
A Numbers, Inequalities, and Absolute Values.
B Coordinate Geometry and Lines.
C Graphs of Second-Degree Equations.
D Trigonometry.
E Sigma Notation.
F Proofs of Theorems.
G Complex Numbers.
H Answers to Odd-Numbered Exercises.
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Cengage provides a range of supplements that are updated in coordination with the main title selection. For more information about these supplements, contact your Learning Consultant.


Test Bank

ISBN: 9781305271807
Includes multiple-choice and short-answer test items that key directly to the text. (Includes single variable and multivariable content).

Cengage Learning Testing, powered by Cognero Instant Access

ISBN: 9781305387096
Cengage Learning Testing Powered by Cognero is a flexible, online system that allows you to author, edit, and manage test bank content, create multiple test versions in an instant, and deliver tests from your LMS, your classroom or wherever you want. This is available online via your SSO account at

Complete Solutions Manual, Chapters 1-11 for Stewart's Single Variable Calculus, 8th

ISBN: 9781305276109
This manual includes worked-out solutions to every exercise in Single Variable Calculus, 8e (Chapters 1-11 of Calculus, 8e). This manual can be found on the Instructors Companion Site.

Complete Solutions Manual, Chapters 10-17 for Stewart's Multivariable Calculus, 8th

ISBN: 9781305276116
This manual includes worked-out solutions to every exercise in Multivariable Calculus, 8e (Chapters 10-17 of Calculus, 8e). This manual can be found on the Instructors Companion Site.


Fast Track to a 5 for Stewart’s Calculus, 8th

ISBN: 9781305268623

Student Solutions Manual, Chs. 10-17

ISBN: 9781305271821
This manual includes worked-out solutions to every odd-numbered exercise in Multivariable Calculus, 8e (Chapters 1-11 of Calculus, 8e).