Numerical Methods for Ordinary Differential Equations

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Numerical Methods for Ordinary Differential Equations

C. Vuik, P. van Beek, F. Vermolen, J. van Kan

2007 / viii + 121 pp. / ISBN 978-90-6562-156-6 / Euro 11,00

Available at www.amazon.com

Ebook ISBN 9789065621702

ISBN 9071301745 ISBN 90-71301-74-5 EAN 9789071301742

9065621563

9789065621566

Related textbooks | Dutch version

A big advantage of numerical mathematics is that a numerical solution can be obtained for problems, where an analytical solution does not exist. An additional advantage is, that a numerical method only uses evaluation of standard functions and the operations: addition, subtraction, multiplication and division. Because these are just the operations a computer can perform, numerical mathematics and computers form a perfect combination.

An analytical method gives the solution as a mathematical formula, which is an advantage. From this we can gain insight in the behavior and the properties of the solution, and with a numerical solution (that gives the function as a table) this is not the case. On the other hand some form of visualization may be used to gain insight in the behavior of the solution. To draw a graph of a function with a numerical method is usually a more useful tool than to evaluate the analytical solution at a great number of points.

In this book we discuss several numerical methods for solving ordinary differential equations. We emphasize those aspects that play an important role in practical problems. In this introductory text we confine ourselves to ordinary differential equations with the exception of the last chapter in which we discuss the heat equation, a parabolic partial differential equation. The techniques discussed in

the introductory chapters, for e.g. interpolation, numerical quadrature and the solution of nonlinear equations, may also be used outside the context of differential equations. They have been included to make the book self contained as far as the numerical aspects are concerned.

Contents: Preface | 1. Introduction | 2. Interpolation | 3. Numerical differentiation | 4. Nonlinear equations | 5. Numerical quadrature | 6. Numerical time integration of initial value problems | 7. The finite difference method for boundary value problems | 8. The instationary equation | Literature | Index

PDF files:

prelims (208 Kb)

Chapter 1 (228 Kb)

Chapter 5 (248 Kb)

a001 download Acrobat Reader

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Textbooks from VSSD	order information b
Numerical Methods for Ordinary Differential Equations C. Vuik, P. van Beek, F. Vermolen, J. van Kan 2007 / viii + 121 pp. / ISBN 978-90-6562-156-6 / Euro 11,00 Available at www.amazon.com Ebook ISBN 9789065621702 ISBN 9071301745 ISBN 90-71301-74-5 EAN 9789071301742 9065621563 9789065621566 Related textbooks \| Dutch version
A big advantage of numerical mathematics is that a numerical solution can be obtained for problems, where an analytical solution does not exist. An additional advantage is, that a numerical method only uses evaluation of standard functions and the operations: addition, subtraction, multiplication and division. Because these are just the operations a computer can perform, numerical mathematics and computers form a perfect combination. An analytical method gives the solution as a mathematical formula, which is an advantage. From this we can gain insight in the behavior and the properties of the solution, and with a numerical solution (that gives the function as a table) this is not the case. On the other hand some form of visualization may be used to gain insight in the behavior of the solution. To draw a graph of a function with a numerical method is usually a more useful tool than to evaluate the analytical solution at a great number of points. In this book we discuss several numerical methods for solving ordinary differential equations. We emphasize those aspects that play an important role in practical problems. In this introductory text we confine ourselves to ordinary differential equations with the exception of the last chapter in which we discuss the heat equation, a parabolic partial differential equation. The techniques discussed in the introductory chapters, for e.g. interpolation, numerical quadrature and the solution of nonlinear equations, may also be used outside the context of differential equations. They have been included to make the book self contained as far as the numerical aspects are concerned. Contents: Preface \| 1. Introduction \| 2. Interpolation \| 3. Numerical differentiation \| 4. Nonlinear equations \| 5. Numerical quadrature \| 6. Numerical time integration of initial value problems \| 7. The finite difference method for boundary value problems \| 8. The instationary equation \| Literature \| Index	PDF files: prelims (208 Kb) Chapter 1 (228 Kb) Chapter 5 (248 Kb)
a001 download Acrobat Reader
English language textbooks Aerospace engineering \| Architectuur en stedenbouw \| Bedrijfsleer, innovatie, economie, recht en techniek, duurzame ontwikkeling \| Bedrijfszekerheidstechniek \| Bouwtechniek \| Civiele techniek \| Bouwen met Staal \| Elektrotechniek \| Ergonomie \| Fysische chemie en fysische en chemische technologie \| Informatietheorie \| Landmeetkunde \| Levenscyclusanalyse \| Materiaalkunde \| (Technische) natuurkunde \| Toegepaste mechanica \| Toegepaste taalkunde: Engels \| Water- en kustmanagement \| Werktuigbouwkunde \| Wiskunde: analyse, lineaire algebra, statistiek Boekhandelsprijzen Naar beginpagina VSSD-uitgeverij	Updated: 16h June 2009, hlf@vssd.nl