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Numerical Solution of Partial Differential Equations

By: Contributor(s): Material type: TextTextPublication details: New York : Cambridge University Press, 1994.Description: 227 pages : illustrationsISBN:
  • 9780521418553
  • 0521418550
  • 9780521429221
  • 0521429226
Subject(s): DDC classification:
  • 515.353 MOR
Contents:
Introduction -- Parabolic equations in one space variable -- Parabolic equations in two and three dimensions -- Hyperbolic equations in one space dimension -- Consistency, convergence and stability -- LInear second order elliptic equations in two dimensions -- Iterative solution of linear algebraic equations.
Summary: Partial differential equations are the chief means of providing mathematical models in science, engineering and other fields. Generally these models must be solved numerically. This book provides a concise introduction to standard numerical techniques, ones chosen on the basis of their general utility for practical problems. The authors emphasize finite difference methods for simple examples of parabolic, hyperbolic and elliptic equations; finite element, finite volume and spectral methods are discussed briefly to see how they relate to the main theme. Stability is treated clearly and rigorously using maximum principles, energy methods, and discrete Fourier analysis. Methods are described in detail for simple problems, accompanied by typical graphical results. A key feature is the thorough analysis of the properties of these methods. Plenty of examples and exercises of varying difficulty are supplied. The book is based on the extensive teaching experience of the authors, who are also well-known for their work on practical and theoretical aspects of numerical analysis. It will be an excellent choice for students and teachers in mathematics, engineering and computer science departments seeking a concise introduction to the subject.
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Item type Current library Collection Call number Status Date due Barcode Item holds
Reference Books Reference Books Main Library Reference Reference 515.353 MOR (Browse shelf(Opens below)) Available 005614
Total holds: 0

Bibliography & Index

Introduction --
Parabolic equations in one space variable --
Parabolic equations in two and three dimensions --
Hyperbolic equations in one space dimension --
Consistency, convergence and stability --
LInear second order elliptic equations in two dimensions --
Iterative solution of linear algebraic equations.


Partial differential equations are the chief means of providing mathematical models in science, engineering and other fields. Generally these models must be solved numerically. This book provides a concise introduction to standard numerical techniques, ones chosen on the basis of their general utility for practical problems. The authors emphasize finite difference methods for simple examples of parabolic, hyperbolic and elliptic equations; finite element, finite volume and spectral methods are discussed briefly to see how they relate to the main theme. Stability is treated clearly and rigorously using maximum principles, energy methods, and discrete Fourier analysis. Methods are described in detail for simple problems, accompanied by typical graphical results. A key feature is the thorough analysis of the properties of these methods. Plenty of examples and exercises of varying difficulty are supplied. The book is based on the extensive teaching experience of the authors, who are also well-known for their work on practical and theoretical aspects of numerical analysis. It will be an excellent choice for students and teachers in mathematics, engineering and computer science departments seeking a concise introduction to the subject.

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