# Calculus Combo

## First EditionLaura Taalman; Peter Kohn

©2014ISBN:9781464153037

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ISBN:9781464151088

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Many calculus textbooks look to engage students with margin notes, anecdotes, and other devices. But many instructors find these distracting, preferring to captivate their science and engineering students with the beauty of the calculus itself. Taalman and Kohn’s refreshing new textbook is designed to help instructors do just that.

Taalman and Kohn’s *Calculus* offers a streamlined, structured exposition of calculus that combines the clarity of classic textbooks with a modern perspective on concepts, skills, applications, and theory. Its sleek, uncluttered design eliminates sidebars, historical biographies, and asides to keep students focused on what’s most important—the foundational concepts of calculus that are so important to their future academic and professional careers.

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Learn More## Table of Contents

**Part I. Differential Calculus**

**0. Functions and Precalculus**0.1 Functions and Graphs

0.2 Operations, Transformations, and Inverses

0.3 Algebraic Functions

0.4 Exponential and Trigonometric Functions

0.5 Logic and Mathematical Thinking*

*Chapter Review, Self-Test, and Capstones*

**1. Limits**

1.1 An Intuitive Introduction to Limits

1.2 Formal Definition of Limit

1.3 Delta-Epsilon Proofs*

1.4 Continuity and Its Consequences

1.5 Limit Rules and Calculating Basic Limits

1.6 Infinite Limits and Indeterminate Forms*Chapter Review, Self-Test, and Capstones*

**2. Derivatives**

2.1 An Intuitive Introduction to Derivatives

2.2 Formal Definition of the Derivative

2.3 Rules for Calculating Basic Derivatives

2.4 The Chain Rule and Implicit Differentiation

2.5 Derivatives of Exponential and Logarithmic Functions

2.6 Derivatives of Trigonometric and Hyperbolic Functions**Chapter Review, Self-Test, and Capstones*

**3. Applications of the Derivative**

3.1 The Mean Value Theorem

3.2 The First Derivative and Curve Sketching

3.3 The Second Derivative and Curve Sketching

3.4 Optimization

3.5 Related Rates

3.6 L’Hopital’s Rule*Chapter Review, Self-Test, and Capstones*

**Part II. Integral Calculus**

**4. Definite Integrals**

4.1 Addition and Accumulation

4.2 Riemann Sums

4.3 Definite Integrals

4.4 Indefinite Integrals

4.5 The Fundamental Theorem of Calculus

4.6 Areas and Average Values

4.7 Functions Defined by Integrals*Chapter Review, Self-Test, and Capstones*

**5. Techniques of Integration**

5.1 Integration by Substitution

5.2 Integration by Parts

5.3 Partial Fractions and Other Algebraic Techniques

5.4 Trigonometric Integrals

5.5 Trigonometric Substitution

5.6 Improper Integrals

5.7 Numerical Integration**Chapter Review, Self-Test, and Capstones*

**6. Applications of Integration**

6.1 Volumes By Slicing

6.2 Volumes By Shells

6.3 Arc Length and Surface Area

6.4 Real-World Applications of Integration

6.5 Differential Equations**Chapter Review, Self-Test, and Capstones*

**Part III. Sequences and Series**

**7. Sequences and Series**

7.1 Sequences

7.2 Limits of Sequence

7.3 Series

7.4 Introduction to Convergence Tests

7.5 Comparison Tests

7.6 The Ratio and Root Tests

7.7 Alternating Series*Chapter Review, Self-Test, and Capstones*

**8. Power Series**

8.1 Power Series

8.2 Maclaurin Series and Taylor Series

8.3 Convergence of Power Series

8.4 Differentiating and Integrating Power Series*Chapter Review, Self-Test, and Capstones*

**Part IV. Vector Calculus**

**9. Parametric Equations, Polar Coordinates, and Conic Sections**

9.1 Parametric Equations

9.2 Polar Coordinates

9.3 Graphing Polar Equations

9.4 Computing Arc Length and Area with Polar Functions

9.5 Conic Sections**Chapter Review, Self-Test, and Capstones*

**10. Vectors**

10.1 Cartesian Coordinates

10.2 Vectors

10.3 Dot Product

10.4 Cross Product

10.5 Lines in Three-Dimensional Space

10.6 Planes*Chapter Review, Self-Test, and Capstones*

**11. Vector Functions**

11.1 Vector-Valued Functions

11.2 The Calculus of Vector Functions

11.3 Unit Tangent and Unit Normal Vectors

11.4 Arc Length Parametrizations and Curvature

11.5 Motion*Chapter Review, Self-Test, and Capstones*

**Part V. Multivariable Calculus**

**12. Multivariable Functions**

12.1 Functions of Two and Three Variables

12.2 Open Sets, Closed Sets, Limits, and Continuity

12.3 Partial Derivatives

12.4 Directional Derivatives and Differentiability

12.5 The Chain Rule and the Gradient

12.6 Extreme Values

12.7 Lagrange Multipliers*Chapter Review, Self-Test, and Capstones*

**13. Double and Triple Integrals**

13.1 Double Integrals over Rectangular Regions

13.2 Double Integrals over General Regions

13.3 Double Integrals in Polar Coordinates

13.4 Applications of Double Integrals

13.5 Triple Integrals

13.6 Integration with Cylindrical and Spherical Coordinates

13.7 Jacobians and Change of Variables*Chapter Review, Self-Test, and Capstones*

**14. Vector Analysis**

14.1 Vector Fields

14.2 Line Integrals

14.3 Surfaces and Surface Integrals

14.4 Green’s Theorem

14.5 Stokes’ Theorem

14.6 The Divergence Theorem*Chapter Review, Self-Test, and Capstones*