Special Edition for Rutgers University
The NEW 7th edition of Calculus blends the best aspects of calculus reform along with the goals and methodology of traditional calculus. The format of this text is enhanced, but is not dominated by new technology. Its innovative presentation includes:
- Conceptual Understanding through Verbalization
- Mathematical Communication
- Cooperative Learning Group Research Projects
- Integration of Technology
- Greater Text Visualization
- Supplementary Materials
- Interactive art - Many pieces of art in the book link online to dynamic art to illustrate such topics as limits, slopes, areas, and direction fields
Calculus features:
- An early presentation of transcendental functions: Logarithms, exponential functions, and trigonometric functions
- Differential equations in a natural and reasonable way
- Utilization of the humanness of mathematics
- Precalculus mathematics being taught at most colleges and universities correctly reflected
- A student solutions manual, instructor’s manual, and accompanying website
It’s all about Problems, problems, problems, and even more problems:
- Modeling Problems require the reader to make assumptions about the real world.
- Think Tank Problems prove the proposition true or to find a counterexample to disprove the proposition.
- Exploration Problems go beyond the category of counterexample problem to provide opportunities for innovative thinking.
- Historical Quest Problems invite the students to participate in the historical development of mathematics. History becomes active rather than passive.
- Journal Problems have been reprinted from leading mathematics journals in an effort to show that “mathematicians work problems too.”
- Putnam Examination Problems have been included to challenge not only the “best of the best” but to offer stimulating content for everybody.
- Uniform Problem Sets 60 in every set allow for easy and consistent problem assignment.
- Cumulative Problem Sets for Chapters 1-5.
- Huge Chapter Supplementary Problem Set of 99 miscellaneous problems in each chapter.
- Proficiency Examination Problem Sets consisting of both concept and practice problems.
Author(s): Karl J. Smith, Monty J. Strauss, Magdalena D. Toda
Edition: 7
Publisher: Kendall Hunt Publishing Company
Year: 2018
Language: English
Pages: 527
City: Dubuque, IA
Front Cover
Title
Copyright
Contents
Preface
For the Student
For the Instuctor
Features of this Book
Text Content
Innovative Presentation
Acknowledgments
1 Functions and Graphs
1.1 What Is Calculus?
The Limit: Zeno's Paradox
The Derivative: The Tangent Problem
The Integral: The Area Problem
Mathematical Modeling
Problem Set 1.1
1.2 Preliminaries
Distance on a Number Line
Absolute Value
Distance in the Plane
Trigonometry
Solving Trigonometric Equations
Problem Set 1.2
1.3 Lines in the Plane; Parametric Equations
Slope of a Line
Forms of the Equation of a Line
Parametric Form
Parallel and Perpendicular Lines
Problem Set 1.3
1.4 Functions and Graphs
Definition of a Function
Functional Notation
Domain and Range of a Function
Composition of Functions
Graph of a Function
Classification of Functions
Problem Set 1.4
1.5 Inverse Functions; Inverse Trigonometric Functions
Inverse Functions
Criteria for Existence of an Inverse f^{-1}
Graph of f^{-1}
Inverse Trigonometric Functions
Inverse Trigonometric Identities
Problem Set 1.5
Chapter 1 Review
Book Report: Ethnomathematics by Marcia Ascher
Chapter 1 Group Research Project
2 Limits and Continuity
2.1 The Limit of a Function
Intuitive Notion of a Limit
One-Sided Limits
Limits that do not Exist
Formal Definition of a Limit
Problem Set 2.1
2.2 Algebraic Computation of Limits
Computations with Limits
Using Algebra to find Limits
Limits of Piecewise-Defined Functions
Two Special Trigonometric Limits
Problem Set 2.2
2.3 Continuity
Intuitive Notion of Continuity
Definition of Continuity
Continuity Theorems
Continuity on an Interval
Intermediate Value Theorem
Problem Set 2.3
2.4 Exponential and Logarithmic Functions
Exponential Functions
Logarithmic Functions
Natural Base e
Natural Logarithms
Continuous Compounding of Interest
Problem Set 2.4
Chapter 2 Review
Chapter 2 Group Research Project
3 Differentiation
3.1 An Introduction to the Derivative: Tangents
Tangent Lines
The Derivative
Relationship Between the Graphs of f and f'
Existence of Derivatives
Continuity and Differentiability
Derivative Notation
Problem Set 3.1
3.2 Techniques of Differentiation
Derivative of a Constant Function
Derivative of a Power Function
Procedural Rules for Finding Derivatives
Higher-Order Derivatives
Problem Set 3.2
3.3 Derivatives of Trigonometric, Exponential, and Logarithmic Functions
Derivatives of the Sine and Cosine Functions
Differentiation of the Other Trigonometric Functions
Derivatives of Exponential and Logarithmic Functions
Problem Set 3.3
3.4 Rates of Change: Modeling Rectilinear Motion
Average and Instantaneous Rate of Change
Introduction to Mathematical Modeling
Rectilinear Motion (Modeling in Physics)
Falling Body Problems
Problem Set 3.4
3.5 The Chain Rule
Introduction to the Chain Rule
Extended Derivative Formulas
Justification of the Chain Rule
Problem Set 3.5
3.6 Implicit Differentiation
General Procedure for Implicit Differentiation
Derivative Formulas for the Inverse Trigonometric Functions
Logarithmic Differentiation
Problem Set 3.6
3.7 Related Rates and Applications
Problem Set 3.7
3.8 Linear Approximation and Differentials
Tangent Line Approximation
Differential
Error Propagation
Marginal Analysis in Economics
The Newton-Raphson Method for Approximating Roots
Problem Set 3.8
Chapter 3 Review
Book Report: Fermat's Enigma by Simon Singh
Chapter 3 Group Research Project
4 Additional Applications of the Derivative
4.1 Extreme Values of a Continuous Function
Extreme Value Theorem
Relative Extrema
Absolute Extrema
Optimization
Problem Set 4.1
4.2 The Mean Value Theorem
Rolle's Theorem
Proof of the Mean Value Theorem
The Zero-Derivative Theorem
Problem Set 4.2
4.3 Using Derivatives to Sketch the Graph of a Function
Increasing and Decreasing Functions
The First-Derivative Test
Concavity and Inflection Points
The Second-Derivative Test
Curve Sketching Using the First and Second Derivatives
Problem Set 4.3
4.4 Curve Sketching with Asymptotes: Limits Involving Infinity
Limits at Infinity
Infinite Limits
Graphs with Asymptotes
Vertical Tangents and Cusps
A General Graphing Strategy
Problem Set 4.4
4.5 l'Hôpital's rule
A Rule to Evaluate Indeterminate Forms
Indeterminate Forms 0/0 and ∞∕∞
Other Indeterminate Forms
Special Limits Involving e^x and ln(x)
Problem Set 4.5
4.6 Optimization in the Physical Sciences and Engineering
Optimization Procedure
Fermat's Principle of Optics and Snell's Law
Problem Set 4.6
4.7 Optimization in Business, Economics, and the Life Sciences
Economics
Business Management
Physiology
Problem Set 4.7
Chapter 4 Review
Chapter 4 Group Research Project
5 Integration
5.1 Antidifferentiation
Reversing Differentiation
Antiderivative Notation
Antidifferentiation Formulas
Applications
Area as an Antiderivative
Problem Set 5.1
5.2 Area as the Limit of a Sum
Area as the Limit of a Sum
The General Approximation Scheme
Summation Notation
Area Using Summation Formulas
Problem Set 5.2
5.3 Riemann Sums and the Definite Integral
Riemann Sums
The Definite Integral
Area as an Integral
Properties of the Definite Integral
Distance as an Integral
Problem Set 5.3
5.4 The Fundamental Theorems of Calculus
The First Fundamental Theorem of Calculus
The Second Fundamental Theorem of Calculus
Problem Set 5.4
5.5 Integration by Substitution
Substitution with Indefinite Integration
Substitution with Definite Integration
Problem Set 5.5
5.6 Introduction to Differential Equations
Introduction and Terminology
Direction Fields
Separable Differential Equations
Modeling Exponential Growth and Decay
Orthogonal Trajectories
Modeling Fluid Flow Through an Orifice
Modeling the Motion of a Projectile: Escape Velocity
Problem Set 5.6
5.7 The Mean Value Theorem for Integrals; Average Value
Mean Value Theorem for Integrals
Modeling Average Value of a Function
Problem Set 5.7
5.8 Numerical Integration: The Trapezoidal Rule and Simpson's Rule
Approximation by Rectangles
Trapezoidal Rule
Simpson's Rule
Error Estimation
Summary of Numerical Integration Techniques
Problem Set 5.8
5.9 An Alternative Approach: The Logarithm as an Integral
Natural Logarithm as an Integral
Geometric Interpretation
The Natural Exponential Function
Problem Set 5.9
Chapter 5 Review
Chapter 5 Group Research Project
Cumulative Review Problems - Chapters 1-5
Appendices
A: Introduction to the Theory of Limits
The Believer/Doubter Format
Selected Theorems with Formal Proofs
B: Selected Proofs
Chain Rule (Section 3.5)
Cauchy's Generalized Mean Value Theorem (Section 4.2)
L'Hôpital's Rule* (Section 4.5)
C: Significant Digits
Significant Digits
Rounding and Rules of Computations Used in this Book
Calculator Experiments
Trigonometric Evaluations
Graphing Blunders
D: Short Table of Integrals
E: Trigonometry
Trigonometric Functions
Radians and Degrees
Inverse Trigonometric Functions
Evaluating Trigonometric Functions
Trigonometric Graphs
Trigonometric Identities
Problem Set E
F: Parabolas
Conic Sections
Standard-Form Parabolas With Vertex (0, 0)
Standard-Form Equations of Parabolas
Problem Set F
G: Ellipses
Definition of an Ellipse
Standard-form Ellipse with Center (0, 0)
Standard-form Equations of Ellipses
Eccentricity
Problem Set G
H: Hyperbolas
Definition of a Hyperbola
Standard-form Hyperbola with Center (0, 0)
Standard-form Equations of Hyperbolas
Properties of Hyperbolas
Conic Section Summary
Problem Set H
I: Determinants
Determinants
Properties of Determinants
Problem Set I
J: Answers to Selected Problems
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 5
Appendix Answers
Index
Differentiation Formulas
Back Cover
