2004 / xii + 434 / Softcover / ISBN: 978-0-898716-39-9 / List Price $123.50 / SIAM Member Price $86.45 / Order Code OT88
This book provides a unified and accessible introduction to the basic theory of finite difference schemes applied to the numerical solution of partial differential equations. Originally published in 1989, its objective remains to clearly present the basic methods necessary to perform finite difference schemes and to understand the theory underlying the schemes.
Finite Difference Schemes and Partial Differential Equations, Second Edition is one of the few texts in the field to not only present the theory of stability in a rigorous and clear manner but also to discuss the theory of initial-boundary value problems in relation to finite difference schemes. Fourier analysis is used throughout the book to give a unified treatment of many of the important ideas found in the first eleven chapters. The material on elliptic partial differential equations found in the later chapters provides an introduction that will enable students to progress to more advanced texts and to knowledgeably implement the basic methods.
This updated edition includes several important modifications. The notion of a stability domain is now included in the definition of stability and is more prevalent throughout the book. The author has added many new figures and tables to clarify important concepts and illustrate the properties of finite difference schemes.
Finite Difference Schemes and Partial Differential Equations, Second Edition is intended for first-year graduate students in scientific and engineering computation. Researchers in numerical analysis also will find it a useful reference for studying stability theory for finite difference schemes applied to linear partial differential equations.
Preface to the Second Edition; Preface to the First Edition; Chapter 1: Hyperbolic Partial Differential Equations; Chapter 2: Analysis of Finite Difference Schemes; Chapter 3: Order of Accuracy of Finite Difference Schemes; Chapter 4:Stability for Multistep Schemes; Chapter 5: Dissipation and Dispersion; Chapter 6:Parabolic Partial Differential Equations; Chapter 7: Systems of Partial Differential Equations in Higher Dimensions; Chapter 8: Second-Order Equations; Chapter 9: Analysis of Well-Posed and Stable Problems; Chapter 10: Convergence Estimates for Initial Value Problems; Chapter 11: Well-Posed and Stable Initial-Boundary Value Problems; Chapter 12: Elliptic Partial Differential Equations and Difference Schemes; Chapter 13: Linear Iterative Methods; Chapter 14: The Method of Steepest Descent and the Conjugate Gradient Method; Appendix A: Matrix and Vector Analysis; Appendix B: A Survey of Real Analysis; Appendix C: A Survey of Results from Complex Anaylsis; References; Index.
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