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Partial Differential Equations

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Partial Differential Equations

Partial Differential Equations

2nd Edition
December 2010
Hardback
9780898719352
£68.00
GBP
Hardback
    Description

    Undergraduate courses on partial differential equations (PDEs) have traditionally been based on the Fourier series method for analysing and solving PDEs. What this textbook offers is a fresh approach; the traditional method taught alongside the modern finite element method. Both powerful methods are introduced to the reader and emphasised equally. A further beneficial feature of the book is that it uses the language of linear algebra, in particular in emphasising the role of best approximation in function spaces and the idea of an eigenfunction expansion. Its inclusion of realistic physical experiments for many examples and exercises will make the book appealing to science and engineering students, as well as students of mathematics. This second edition has a broader coverage of PDE methods and applications than the first, with the inclusion of chapters on the method of characteristics, Green's functions, Sturm–Liouville problems and a section on finite difference methods.

    • Tutorials are provided that explain the features of MATLAB, Mathematica and Maple which are useful for the material in the book
    • The text includes thorough expositions of the background material from linear algebra and ordinary differential equations
    • The only prerequisite is a course in ordinary differential equations

    Reviews & endorsements

    'I love this book and look forward to using it as a text in the future … It's the first truly modern approach that I've seen in a PDE text.' Maeve McCarthy, MAA Online

    See more reviews

    Product details

    December 2010
    Hardback
    9780898719352
    674 pages
    261 × 183 × 35 mm
    1.3kg
    150 b/w illus.
    This item is not supplied by Cambridge University Press in your region. Please contact Soc for Industrial & Applied Mathematics for availability.

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    Contents

    Table of Contents

    • Preface
    • 1. Classification of differential equations
    • 2. Models in one dimension
    • 3. Essential linear algebra
    • 4. Essential ordinary differential equations
    • 5. Boundary value problems in statics
    • 6. Heat flow and diffusion
    • 7. Waves
    • 8. First-order PDEs and the method of characteristics
    • 9. Green's functions
    • 10. Sturm–Liouville eigenvalue problems
    • 11. Problems in multiple spatial dimensions
    • 12. More about Fourier series
    • 13. More about finite element methods
    • Appendix A. Proof of Theorem 3.47
    • Appendix B. Shifting the data in two dimensions
    • Bibliography
    • Index.
      • Show more
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    About the authors
      Author
    • Mark S. Gockenbach

      Mark Gockenbach is Professor and Chair of the Department of Mathematical Sciences at Michigan Technological University. He is the author of Partial Differential Equations: Analytical and Numerical Methods (SIAM, 2002) and Understanding and Implementing the Finite Element Method (SIAM, 2006). His research interests include inverse problems in partial differential equations and numerical methods and software for large-scale optimization problems.

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