- Series
- Pearson
- Author
- Margaret L. Lial / Raymond N. Greenwell / Nathan P. Ritchey
- Publisher
- Pearson
- Cover
- Softcover
- Edition
- 11
- Language
- English
- Total pages
- 864
- Pub.-date
- January 2021
- ISBN13
- 9781292108971
- ISBN
- 1292108975
- Related Titles

ISBN | Product | Product | Price CHF | Available | |
---|---|---|---|---|---|

Calculus with Applications, Global Edition |
9781292108971 Calculus with Applications, Global Edition |
102.00 | approx. 7-9 days |

*For freshman/sophomore, 2-semester (2-3 quarter) courses covering applied calculus for students in business, economics, social sciences, or life sciences.*

* *

** Calculus with Applications, Eleventh Edition** by Lial, Greenwell, and Ritchey, is our most applied text to date, making the math relevant and accessible for students of business, life science, and social sciences. Current applications, many using real data, are incorporated in numerous forms throughout the book, preparing students for success in their professional careers. With this edition, students will find new ways to help them learn the material, such as Warm-Up Exercises and added “help text” within examples.

**Also available with MyMathLab**

The MyMathLab^{®} course for the text provides online homework and additional learning resources for students, such as video tutorials, algebra help, step-by-step examples, and graphing calculator help. The course features many more assignable exercises than the previous edition.

**MyMathLab not included. **Students, if MyMathLab is a recommended/mandatory component of the course, please ask your instructor for the correct ISBN and course ID. MyMathLab should only be purchased when required by an instructor. Instructors, contact your Pearson representative for more information.

This title is a Pearson Global Edition. The Editorial team at Pearson has worked closely with educators around the world to include content which is especially relevant to students outside the United States.

**A wide variety of applications**reference real data from articles in newspapers, journals, and websites. Examples and exercises with recent data help students learn how the mathematics is applied to their field of study, immediately addressing the question, “Why are we learning this?”**NEW!**The authors have added or updated 157 (15.9%) of the application exercises throughout the text..**Apply It**opens most sections with a provocative, real-world oriented question that is addressed in the exposition and exercises.**Applied exercises**are grouped by type of application and highlighted for easy identification.**Extended Applications**appear at the end of all chapters to stimulate student interest and foster in-depth learning. Directions for**Group Projects**in the Extended Applications provide an opportunity for cooperative learning.**Index of Applications**provides instructors and students with an overview of the types of applications throughout the book**.****Application exercises**within MyMathLab are labeled by type of application.

**Assessment and remediation features**appear at key points to ensure that students keep up with the material, and provide plenty of pointers to help those who fall behind.**“Your Turn”**exercises following selected examples provide students with an easy way to stop and check their understanding of the skill or concept being presented. Answers are provided at the end of the section’s exercises.**NEW! Warm-Up**exercises were added to many exercise sets to provide an opportunity for students to refresh key prerequisite skills at “point of use.” Each exercise includes a note about where students can go for help if needed.- The
**Prerequisite Skills Diagnostic Test**, just prior to Chapter R, gives students and instructors an opportunity to assess students’ skills on topics that are critical to success in this course. Answers refer to specific review material in the text for**targeted remediation**. - An
**Algebra Reference****chapter**appears at the beginning of the text, allowing students to brush up on their algebra skills. **“For Review”**boxes in the margin provide immediate review, or refer students back to appropriate sections as needed.**“Help text”**annotations, set in small blue type, appear next to the steps within worked-out examples and provide an additional aid for students with weaker algebra skills. Many more have been added in this edition.**Chapter Summaries**include important concepts, rules, and formulas, helping students review what they have learned.**Caution**notes warn students of common errors/misconceptions and**Note**boxes offer additional useful information. Both are highlighted for easy reference.

**Diverse exercise sets**show how math is used in students’ major courses of study–business, life science, and social sciences.**Connection Exercises**integrate topics/concepts from different sections. These are denoted with an icon.**Writing Exercises**provide students with an opportunity to write about important mathematical ideas. These are denoted with an icon.**Technology Exercises,**denoted with an icon, explore concepts using a graphing calculator or spreadsheet.**Concept Check exercises**in the Chapter Reviews help students verify their understanding of important topics.**Reference Tables for Exercises**appear in the back of the book. These tables correlate homework exercises to a helpful example in the text.

**Technology coverage**keeps your classroom and students up-to-date with the latest software and technology options available on the market.- The design makes it easy to identify technology coverage so instructors can more easily highlight (or skip) the material.
**Excel**^{®}**Spreadsheets**are included in examples and exercises where appropriate, allowing students to work problems that closely relate to real-life and business situations.**Graphing Calculator**discussions are included in many examples, but are not essential for understanding the text.**NEW!**Graphing calculator screens have been updated to reflect the TI-84 Plus C, which features a higher-resolution color screen.**Technology Notes**Material on graphing calculators or Microsoft Excel is clearly labeled to make it easier for instructors to use this material (or not).

** **

**MyMathLab not included. **Students, if MyMathLab is a recommended/mandatory component of the course, please ask your instructor for the correct ISBN and course ID. MyMathLab should only be purchased when required by an instructor. Instructors, contact your Pearson representative for more information.

**Also available with MyMathLab**

MyMathLab is the online homework, tutorial, and assessment program designed for this text to engage students and improve results. Within its structured environment, students learn, practice and apply what they learn, test their understanding, and take advantage of a personalized study plan that adapts to their needs.

- The MyMathLab
^{®}course for this text contains many assignable exercises with help features that can be customized to the needs of your students.**NEW!**At the request of MyMathLab users, we added more applications to this revision.**NEW! Setup & Solve**exercises require students to specify how to set up a problem, then solve it. These exercises mirror what students will be asked to do on tests.**Application labels**within exercise sets (e.g., “Business/Econ”) make it easy for instructors to find types of applications appropriate to students.

**NEW!**An**Integrated Review**version of the course contains pre-assigned diagnostic and remediation resources for key prerequisite skills. Skills Check Quizzes help diagnose gaps in skills prior to each chapter. MyMathLab then provides personalized help on only those skills that a student has not mastered.**Personalized Homework**functionality allows instructors to create homework assignments based on the results of student assessments.**Tutorial videos**for every section of the textbook cover important concepts and terms, and are easily accessible for students who miss lecture.**NEW!**Videos are available as full-length lectures and as shorter, assignable video clips that focus on a specific concept or example.**NEW!**A**Guide to Video-Based Assignments**shows which exercises correspond to each video clip, making it easy to assess students after they watch an instructional video. This is perfect for flipped-classroom situations.**NEW! Tutorial videos involving graphing calculators**are available to augment existing “by hand” methods, allowing you to tailor the help that students receive to match how you incorporate graphing calculators into the course.

**NEW! Learning Catalytics**is a “bring your own device” student engagement, assessment, and classroom intelligence system. Students use any modern web-enabled device they already have. With Learning Catalytics, you assess students in real time, using open-ended tasks to probe student understanding. It allows you to engage students by creating open-ended questions that ask for numerical, algebraic, textual, or graphical responses–or simple multiple-choice. Students who have access to MyMathLab have instant access to Learning Catalytics and can log in using their MyMathLab username and password. Learning Catalytics contains Pearson-created content for calculus that allows you to take advantage of this exciting technology immediately.**Interactive Figures**illustrate key concepts and allow manipulation for use as teaching and learning tools. These include assignable exercises that require use of the figures.

**New and updated features**

**Warm-Up**exercises were added to many exercise sets to provide an opportunity for students to refresh key prerequisite skills at “point of use.”**Graphing calculator screens**have been updated to reflect the TI-84 Plus C, which features color and a much higher resolution screen. Additionally, the graphing calculator notes have been updated throughout.**More help text in the examples**provide an additional aid for students with weaker algebra skills. These notes are set in small blue type next to the steps within worked-out examples.**More real data in examples and exercises**include additional or updated data:- The authors have added or updated 157 (15.9%) of the application exercises throughout the text.

**Updated exercises and examples**are based on user feedback and other factors.- Of the 3516 exercises within the sections, 397 (11.2%) are new or updated.
- Of the 413 examples in the text, 55 (13.3%) are new or updated.

**Content Updates**

**Chapter R**- Added new
*Your Turn*exercises to ensure that there is a student assessment for each major concept. - Added more detail to R.2 on factoring perfect squares.

- Added new
**Chapter 1**- Rewrote the part of 1.1 involving graphing lines, emphasizing different methods for graphing.
- Rewrote 1.2 on supply, demand, break-even analysis, and equilibrium; giving formal definitions that match what students would see in business and economics courses. All of the business applications were revised, according to recommendations of reviewers, to be more in line with business texts. Also added a new Example 6 on finding a cost function.
- Added color for pedagogical reasons to make content easier to follow.

**Chapter 2**- Updated introduction to 2.1, rewriting it as an example to make it easier for students to reference the necessary skills to identify nonlinear functions, determine the domain and range, and estimate values from a graph.
- In 2.2, added another approach to graphing parabolas by splitting former Example 4 into two separate examples. The new Example 5 illustrates how to graph a parabola by first finding its characteristics (including orientation, intercepts, vertex, and axis of symmetry). The characteristics are highlighted in a box for easy reference.
- Added quadratic regression to 2.2. Example 9 includes a by-hand method and a method using technology.
- Rewrote Example 10 in 2.2, which illustrates translations and reflections of a graph, by breaking it into three parts. The first part is a basic transformation, and the ensuing parts build in complexity.
- Added the definition of a real root to 2.3 and added a technology box to illustrate how to use a graphing calculator to approximate the roots of higher degree polynomials.
- Added cubic regression to 2.3 (Example 5).

**Chapter 3**- Added Caution note to 3.1 and added a new solution method to Example 9.
- Added new Example 2 to 3.3 using recent data.
- Updated Example 4 in 3.3 to use clearer wording.

**Chapter 4**- Clarified the rules for differentiation in 4.1, 4.2, 4.3 and added a new Example 8.
- Expanded Example 9 in 4.1 to include a new graph.
- Updated Example 10 in 4.1 and Example 4 in 4.5.

**Chapter 5**- Added new examples to 5.2 (Example 3c) and 5.3 (Example 6b).
- Expanded Example 6a in 5.4 to show the inflection point.

**Chapter 6**- Updated Example 3 in 6.1 to show an application of the concept.
- Modified examples in 6.2 (Example 3), 6.4 (Example 2), and 6.6 (Example 1).

**Chapter 7**- Added annotations and comments to Example 10 in 7.1.
- Simplified Examples 1, 2, 3, and 6 in 7.2 and added annotations and comments.
- Added a “For Review” box to 7.3.
- Enlarged all small integral signs throughout the chapter for added clarity.
- Updated Example 7 in 7.4 and Example 5 in 7.5.
- Added more explanation of the consumer surplus to 7.5.

**Chapter 8**- Added annotations to several examples in 8.1 to denote steps in integration by parts.
- Revised the solutions to Examples 4 and 5 in 8.3, giving more detail and adding annotation to denote the steps in determining the accumulated amount of money flow.

**Chapter 9**- Rewrote and expanded Exercise 8 in 9.1, on the Cobb-Douglas Production Function, emphasizing the interpretation of the solutions.
- Added 3 new exercises to 9.1 on exponential and logarithmic functions of several variables.
- Revised the solution to Example 4 in 9.3, giving more detail.
- Rewrote the solution to Example 3 in 9.4, illustrating how to find the extrema of a constrained function of one or more variables using a spreadsheet.

**Chapter 10**- Revised the solution to Example 5 in 10.1, adding annotation to denote steps in separation of variables.
- In 10.1, added the definition of equilibrium point, explained how to determine the stability (stable, unstable, or semistable) of the equilibrium point, and added Example 8 on equilibrium points and stability.

**Chapter 11**- Changed the introductory example in 11.1, which continues into 11.2, to avoid rounding issues.
- Added a new part (d) to Example 3 in 11.3, as well as Method 2 using a graphing calculator and Method 3 using a spreadsheet.
- Changed 11.3 so that graphing calculators are the primary method of calculating normal probabilities, and the normal table is the secondary method.

**Chapter 12**- Revised Example 4 Method 1 (Graphing Calculator) in 12.1.
- Added further clarification on the TVM Solver to Example 8 in 12.2.

**Chapter 13**- In 13.1, revised coverage of translating graphs of sine and cosine functions. Also added a box to highlight the transformation of trigonometric functions.
- Added Example 8 to 13.2, which illustrates how to find the relative extrema for trigonometric functions.
- In 13.2, added new exercises (37—56), which use applications of the derivative applied to trigonometric functions. Applications include: critical numbers, intervals where the function is increasing and decreasing, relative extrema, higher order derivatives, intervals where the functions are concave upward and concave downward, inflection points, detailed graphs, absolute extrema, implicit differentiation, related rates, and differential approximation.

**MyMathLab not included. **Students, if MyMathLab is a recommended/mandatory component of the course, please ask your instructor for the correct ISBN and course ID. MyMathLab should only be purchased when required by an instructor. Instructors, contact your Pearson representative for more information.

**Also available with MyMathLab**

MyMathLab is an online homework, tutorial, and assessment program designed for this text to engage students and improve results. Within its structured environment, students learn, practice and apply what they learn, test their understanding, and take advantage of a personalized study plan that adapts to their needs.

- Some resources were added or revised based on student usage of the previous edition of the MyMathLab course. For example, more exercises were added to those chapters and sections that are more widely assigned.
**Hundreds of new exercises**were added to the course to provide you with more options for assignments, including:**More application exercises**throughout the textthat require students to specify how to set up a problem as well as to solve it*Setup & Solve*exercises- Exercises that take advantage of the
**enhanced graphing tool**

- An
**Integrated Review**version of the course contains pre-assigned diagnostic and remediation resources for key prerequisite skills. Skills Check Quizzes help diagnose gaps in skills prior to each chapters. MyMathLab then provides personalized help on only those skills that a student has not mastered. - The
**videos**for the course have increased in number, type, and quality:**New videos**feature more applications and more challenging examples.**Tutorial videos involving graphing calculators**are available to augment existing “by hand” methods, allowing you to tailor the help that students receive to match how you incorporate graphing calculators into the course.**Assignable, shorter video clips**focus on a specific concept or example. These appear in addition to full-length lecture videos in MyMathLab.**MathTalk Videos**help motivate students by pointing out relevant connections to their majors–especially business. The videos feature Andrea Young from Ripon College (WI), a dynamic math professor (and actor!). The videos can be used as lecture starters or as part of homework assignments (in regular or flipped classes). Assignable exercises that accompany the videos help make these videos a part of homework assignments.**A Guide to Video-Based Assignments**shows which exercises correspond to each video, making it easy to assess students after they watch an instructional video. This is perfect for flipped-classroom situations.

**Learning Catalytics**is a “bring your own device” student engagement, assessment, and classroom intelligence system. Students use any modern web-enabled device they already have. With Learning Catalytics, you assess students in real time, using open-ended tasks to probe student understanding. It allows you to engage students by creating open-ended questions that ask for numerical, algebraic, textual, or graphical responses–or simple multiple-choice. Students who have access to MyMathLab have instant access to Learning Catalytics and can log in using their MyMathLab username and password. Learning Catalytics contains Pearson-created content for calculus that allows you to take advantage of this exciting technology immediately.**Interactive Figures**no longer require a special plug-in. They have been re-programmed in HTML5.

**R. Algebra Reference **

R-1 Polynomials

R-2 Factoring

R-3 Rational Expressions

R-4 Equations

R-5 Inequalities

R-6 Exponents

R-7 Radicals

**1. Linear Functions **

1-1 Slopes and Equations of Lines

1-2 Linear Functions and Applications

1-3 The Least Squares Line

Chapter Review

Extended Application: Using Extrapolation to Predict Life Expectancy

**2. Nonlinear Functions**

2-1 Properties of Functions

2-2 Quadratic Functions; Translation and Reflection

2-3 Polynomial and Rational Functions

2-4 Exponential Functions

2-5 Logarithmic Functions

2-6 Applications: Growth and Decay; Mathematics of Finance

Chapter Review

Extended Application: Characteristics of the Monkeyface Prickleback

**3. The Derivative**

3-1 Limits

3-2 Continuity

3-3 Rates of Change

3-4 Definition of the Derivative

3-5 Graphical Differentiation

Chapter 3 Review

Extended Application: A Model for Drugs Administered Intravenously

**4. Calculating the Derivative**

4-1 Techniques for Finding Derivatives

4-2 Derivatives of Products and Quotients

4-3 The Chain Rule

4-4 Derivatives of Exponential Functions

4-5 Derivatives of Logarithmic Functions

Chapter Review

Extended Application: Electric Potential and Electric Field

**5. Graphs and the Derivative**

5-1 Increasing and Decreasing Functions

5-2 Relative Extrema

5-3 Higher Derivatives, Concavity, and the Second Derivative Test

5-4 Curve Sketching

Chapter Review

Extended Application: A Drug Concentration Model for Orally Administered

Medications

**6. Applications of the Derivative**

6-1 Absolute Extrema

6-2 Applications of Extrema

6-3 Further Business Applications: Economic Lot Size; Economic Order Quantity; Elasticity of Demand

6-4 Implicit Differentiation

6-5 Related Rates

6-6 Differentials: Linear Approximation

Chapter Review

Extended Application: A Total Cost Model for a Training Program

**7. Integration**

7-1 Antiderivatives

7-2 Substitution

7-3 Area and the Definite Integral

7-4 The Fundamental Theorem of Calculus

7-5 The Area Between Two Curves

7-6 Numerical Integration

Chapter Review

Extended Application: Estimating Depletion Dates for Minerals

**8. Further Techniques and Applications of Integration**

8-1 Integration by Parts

8-2 Volume and Average Value

8-3 Continuous Money Flow

8-4 Improper Integrals

Chapter Review

Extended Application: Estimating Learning Curves in Manufacturing with Integrals

**9. Multivariable Calculus**

9-1 Functions of Several Variables

9-2 Partial Derivatives

9-3 Maxima and Minima

9-4 Lagrange Multipliers

9-5 Total Differentials and Approximations

9-6 Double Integrals

Chapter Review

Extended Application: Using Multivariable Fitting to Create a Response Surface Design

**10. Differential Equations**

10-1 Solutions of Elementary and Separable Differential Equations

10-2 Linear First-Order Differential Equations

10-3 Euler's Method

10-4 Applications of Differential Equations

Chapter Review

Extended Application: Pollution of the Great Lakes

**11. Probability and Calculus**

11-1 Continuous Probability Models

11-2 Expected Value and Variance of Continuous Random Variables

11-3 Special Probability Density Functions

Chapter Review

Extended Application: Exponential Waiting Times

**12. Sequences and Series **

12-1 Geometric Sequences

12-2 Annuities: An Application of Sequences

12-3 Taylor Polynomials

12-4 Infinite Series

12-5 Taylor Series

12-6 Newton's Method

12-7 L'Hospital's Rule

Chapter Review

**13. The Trigonometric Functions**

13-1 Definitions of the Trigonometric Functions

13-2 Derivatives of Trigonometric Functions

13-3 Integrals of Trigonometric Functions

Chapter Review

Extended Application: The Shortest Time and the Cheapest Path

Tables

Table 1 Formulas of Geometry

Table 2 Area Under a Normal Curve

Table 3 Integrals

Table 4 Integrals Involving Trigonometric Functions

Answers to Selected Exercises

Photo Acknowledgements

Index