Generalized Difference Methods for Differential Equations: Numerical Analysis of Finite Volume Methods (Hardback) book cover

Generalized Difference Methods for Differential Equations

Numerical Analysis of Finite Volume Methods

By Ronghua Li, Zhongying Chen, Wei Wu

Series Editors: Zuhair Nashed, Earl Taft

© 2000 – CRC Press

472 pages

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Hardback: 9780824703301
pub: 2000-01-03

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About the Book

This text presents a comprehensive mathematical theory for elliptic, parabolic, and hyperbolic differential equations. It compares finite element and finite difference methods and illustrates applications of generalized difference methods to elastic bodies, electromagnetic fields, underground water pollution, and coupled sound-heat flows.


". . .an extraordinary text presenting, mathematically, delicate problems of numerical approximations in a very careful and yet accessible manner. "

---Mathematical Reviews

"…contains a lot of very useful material on the numerical analysis of the finite volume scheme…. …useful to researchers and graduate students working on the numerical analysis of finite element methods and finite volume methods for elliptic problems."

---Zentralblatt fur Mathematik, 2000

"…an indispensable reference work for any numerical analyst who studies and uses finite difference, finite element, and finite volume methods and other approaches for solving partial differential equations and applications. Besides its value as an excellent reference book for the generalized difference methods or for some finite volume methods from the point of view of the generalized finite element method, many ideas, both in algorithm design and theoretical analysis, can be applied elsewhere."

---SIAM Review, 2001

Table of Contents

Preliminaries; two point boundary value problems; second order elliptic equations; fourth order and nonlinear elliptic equations; parabolic equations; hyperbolic equations; convection-dominated diffusion problems; applications.

About the Series

Chapman & Hall/CRC Pure and Applied Mathematics

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Subject Categories

BISAC Subject Codes/Headings:
MATHEMATICS / Number Systems