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Advanced Engineering Mathematics [electronic resource] / by Merle C. Potter, Jack L. Lessing, Edward F. Aboufadel.

By: Potter, Merle C [author.].
Contributor(s): Lessing, Jack L [author.] | Aboufadel, Edward F [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: Cham : Springer International Publishing : Imprint: Springer, 2019Edition: 4th ed. 2019.Description: XIV, 739 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783030170684.Subject(s): Engineering mathematics | Mathematical physics | Engineering Mathematics | Mathematical Physics | Theoretical, Mathematical and Computational PhysicsAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 620.00151 Online resources: Click here to access online
Contents:
Chapter 1: Ordinary Differential Equations -- Chapter 2: Series Method -- Chapter 3: Laplace Transforms -- Chapter 4: The Theory of Matrices -- Chapter 5: Matrix Applications -- Chapter 6: Vector Analysis -- Chapter 7: Fourier Series -- Chapter 8: Partial Differential Equations -- Chapter 9: Numerical Methods -- Chapter 10: Complex Variables -- Chapter 11: Wavelets -- For Further Study -- Appendices.
In: Springer Nature eBookSummary: This book is designed to serve as a core text for courses in advanced engineering mathematics required by many engineering departments. The style of presentation is such that the student, with a minimum of assistance, can follow the step-by-step derivations. Liberal use of examples and homework prob­lems aid the student in the study of the topics presented. Ordinary differential equations, including a number of physical applica­tions, are reviewed in Chapter One. The use of series methods are presented in Chapter Two, Subsequent chapters present Laplace transforms, matrix theory and applications, vector analysis, Fourier series and transforms, partial differential equations, numerical methods using finite differences, complex vari­ables, and wavelets. The material is presented so that four or five subjects can be covered in a single course, depending on the topics chosen and the completeness of coverage. Incorporated in this textbook is the use of certain computer software packages. Short tutorials on Maple, demonstrating how problems in engineering mathematics can be solved with a computer algebra system, are included in most sections of the text. Problems have been identified at the end of sections to be solved specifically with Maple, and there are computer laboratory activities, which are more difficult problems designed for Maple. In addition, MATLAB and Excel have been included in the solution of problems in several of the chapters. There is a solutions manual available for those who select the text for their course. This text can be used in two semesters of engineering mathematics. The many helpful features make the text relatively easy to use in the classroom. .
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Chapter 1: Ordinary Differential Equations -- Chapter 2: Series Method -- Chapter 3: Laplace Transforms -- Chapter 4: The Theory of Matrices -- Chapter 5: Matrix Applications -- Chapter 6: Vector Analysis -- Chapter 7: Fourier Series -- Chapter 8: Partial Differential Equations -- Chapter 9: Numerical Methods -- Chapter 10: Complex Variables -- Chapter 11: Wavelets -- For Further Study -- Appendices.

This book is designed to serve as a core text for courses in advanced engineering mathematics required by many engineering departments. The style of presentation is such that the student, with a minimum of assistance, can follow the step-by-step derivations. Liberal use of examples and homework prob­lems aid the student in the study of the topics presented. Ordinary differential equations, including a number of physical applica­tions, are reviewed in Chapter One. The use of series methods are presented in Chapter Two, Subsequent chapters present Laplace transforms, matrix theory and applications, vector analysis, Fourier series and transforms, partial differential equations, numerical methods using finite differences, complex vari­ables, and wavelets. The material is presented so that four or five subjects can be covered in a single course, depending on the topics chosen and the completeness of coverage. Incorporated in this textbook is the use of certain computer software packages. Short tutorials on Maple, demonstrating how problems in engineering mathematics can be solved with a computer algebra system, are included in most sections of the text. Problems have been identified at the end of sections to be solved specifically with Maple, and there are computer laboratory activities, which are more difficult problems designed for Maple. In addition, MATLAB and Excel have been included in the solution of problems in several of the chapters. There is a solutions manual available for those who select the text for their course. This text can be used in two semesters of engineering mathematics. The many helpful features make the text relatively easy to use in the classroom. .

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