This book provides complete topical coverage of practical calculus skills required for engineering technology. Its comprehensive coverage includes the standard topics of analytic geometry, single variable calculus, differential equations, and an introduction to three-dimensional calculus. Assuming learners have a mathematics background in algebra and trigonometry, this book is amply illustrated with detailed examples and a wide variety of technical exercises, and contains the added bonus of up-to-date graphing calculator technology. For individuals whose mathematical, problem-solving, and critical thinking skills have a direct impact on their career opportunities.
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A thorough discussion of the practical calculus skills required for engineering technology.Excerpt. © Reprinted by permission. All rights reserved.:
Technical Calculus, Fourth Edition, provides the calculus skills for students in an engineering technology program that requires a development of practical calculus. This edition has been carefully reviewed, and special efforts have been taken to emphasize clarity and accuracy of presentation.
The text presents the following major areas: analytic geometry, differential calculus, integral calculus, partial derivatives, double integrals, series, and differential equations.
Illustration of Some Key Features
Examples. Since many students learn by example, a large number of detailed and well-illustrated examples are used throughout the text. Page 261 illustrates this feature.
Page 342 illustrates the use of an advanced graphing calculator to evaluate a definite integral as an alternative to using a trigonometric substitution to integrate. Page 477 illustrates the use of an advanced graphing calculator to solve a nonhomogeneous differential equation. Each graphing calculator feature can easily be omitted without loss of continuity.
Illustrations and Boxes. Page 293 is an example of the abundant and effective use of illustrations and boxes to highlight important principles.
Chapter End Matter. A chapter summary and a chapter review are provided at the end of each chapter to review concept understanding and to help students review for quizzes and examinations.
To the Faculty
The topics have been arranged with the assistance of faculty who teach in a variety of technical programs. However, we have also allowed for many other compatible arrangements. The topics are presented in an intuitive manner with technical applications integrated throughout whenever possible. The large number of detailed examples and exercises are features that students and faculty alike find essential.Mathematics for Technical Education, serves as a smooth transition to this book, although other equivalent texts are also feasible.
Chapter 1 provides the basic analytic geometry needed for a study of a practical calculus. Chapters 2 through 4 present intuitive discussions about the limit and develop basic techniques and applications of differentiation. Chapters 5 through 7 develop basic integration concepts, some appropriate applications, and more complicated methods of integration. Chapter 8 presents partial derivatives and double integrals. Chapters 9 and 10 provide a basic understanding of progressions and series. Chapters 11 and 12 provide an introduction to differential equations with technical applications.
To the Student
Mathematics provides the essential framework for and is the basic language of all the technologies. With this basic understanding of mathematics, you will be able to quickly understand your chosen field of study and then be able to independently pursue your own life-long education. Without this basic understanding, you will likely struggle and often feel frustrated not only in your mathematics and support sciences courses but also in your technical courses.
Technology and the world of work will continue to change rapidly. Your own working career will likely change several times during your working lifetime. Mathematical, problem-solving, and critical-thinking skills will be crucial as opportunities develop in your own career path in a rapidly changing world.
The authors especially thank the many faculty and students who have used the previous editions and those who have offered suggestions. If anyone wishes to correspond with us regarding suggestions, criticisms, questions, or errors, please contact Dale Ewen directly through Prentice Hall or e-mail the authors at MathComments@aol.com.
We extend our sincere and special thanks to our reviewers: Joe Jordan, John Tyler Community College (VA); Maureen Kelly, North Essex Community College (MA); Carol A. McVey, Florence-Darlington Technical College (SC); John D. Meese, DeVry Institute of Technology (OH); Kenneth G. Merkel, Ph.D., PE, University of Nebraska-Lincoln; Susan L. Miertschin, University of Houston; and Pat Velicky, Florence-Darlington Technical College (SC). We would also like to extend thanks to our Prentice Hall editor—Stephen Helba, to our media development editor—Michelle Churma, to our production editor—Louise Sette, Wendy Druck at TECHBOOKS, and to Joyce Ewen for her superb proofing assistance.
Joan S. Gary
James E. Trefzger
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Book Description Prentice Hall, 2001. Hardcover. Book Condition: New. book. Bookseller Inventory # 0130930040
Book Description Prentice Hall, 2001. Hardcover. Book Condition: New. 4. Bookseller Inventory # DADAX0130930040
Book Description Prentice Hall, 2001. Hardcover. Book Condition: New. Bookseller Inventory # P110130930040
Book Description Prentice Hall. Hardcover. Book Condition: New. 0130930040 New Condition. Bookseller Inventory # NEW6.0045432