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Introduction to Numerical Methods for Time Dependent Differential Equations

Introduction to Numerical Methods for Time Dependent Differential Equations

Introduction to Numerical Methods for Time Dependent Differential Equations
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Introduction to Numerical Methods for Time Dependent Differential Equations Hardback -

by Heinz–Otto Kreiss Omar Eduardo Ortiz

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John Wiley & Sons , pp. 192 Index. Hardback. New.
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Details

  • Title Introduction to Numerical Methods for Time Dependent Differential Equations
  • Author Heinz–Otto Kreiss Omar Eduardo Ortiz
  • Binding Hardback
  • Edition INDIAN EDITIONS
  • Condition New
  • Pages 192
  • Volumes 1
  • Language ENG
  • Publisher John Wiley & Sons
  • Publication date pp. 192 Index
  • Illustrated Yes
  • Features Bibliography, Illustrated, Index, Table of Contents
  • Bookseller's Inventory # 697256141
  • ISBN 9781118838952 / 1118838955
  • Weight 1 lbs (0.45 kg)
  • Dimensions 9.3 x 6.1 x 0.7 in (23.62 x 15.49 x 1.78 cm)
  • Category Mathematics
  • Library of Congress subjects Differential equations, Partial - Numerical
  • Library of Congress Catalogue Number 2013042036
  • Dewey Decimal Code 515.353
  • Quantity available 3

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Reader reviews for Introduction to Numerical Methods for Time Dependent Differential Equations

From the publisher

Introduces both the fundamentals of time dependent differential equations and their numerical solutions

Introduction to Numerical Methods for Time Dependent Differential Equations delves into the underlying mathematical theory needed to solve time dependent differential equations numerically. Written as a self-contained introduction, the book is divided into two parts to emphasize both ordinary differential equations (ODEs) and partial differential equations (PDEs).

Beginning with ODEs and their approximations, the authors provide a crucial presentation of fundamental notions, such as the theory of scalar equations, finite difference approximations, and the Explicit Euler method. Next, a discussion on higher order approximations, implicit methods, multistep methods, Fourier interpolation, PDEs in one space dimension as well as their related systems is provided.

Introduction to Numerical Methods for Time Dependent Differential Equations features:

  • A step-by-step discussion of the procedures needed to prove the stability of difference approximations
  • Multiple exercises throughout with select answers, providing readers with a practical guide to understanding the approximations of differential equations
  • A simplified approach in a one space dimension
  • Analytical theory for difference approximations that is particularly useful to clarify procedures

Introduction to Numerical Methods for Time Dependent Differential Equations is an excellent textbook for upper-undergraduate courses in applied mathematics, engineering, and physics as well as a useful reference for physical scientists, engineers, numerical analysts, and mathematical modelers who use numerical experiments to test designs or predict and investigate phenomena from many disciplines.

From the rear cover

Introduces both the fundamentals of time dependent differential equations and their numerical solutions

Introduction to Numerical Methods for Time Dependent Differential Equations delves into the underlying mathematical theory needed to solve time dependent differential equations numerically. Written as a self-contained introduction, the book is divided into two parts to emphasize both ordinary differential equations (ODEs) and partial differential equations (PDEs).

Beginning with ODEs and their approximations, the authors provide a crucial presentation of fundamental notions, such as the theory of scalar equations, finite difference approximations, and the Explicit Euler method. Next, a discussion on higher order approximations, implicit methods, multistep methods, Fourier interpolation, PDEs in one space dimension as well as their related systems is provided.

Introduction to Numerical Methods for Time Dependent Differential Equations features:

  • A step-by-step discussion of the procedures needed to prove the stability of difference approximations
  • Multiple exercises throughout with select answers, providing readers with a practical guide to understanding the approximations of differential equations
  • A simplified approach in a one space dimension
  • Analytical theory for difference approximations that is particularly useful to clarify procedures

Introduction to Numerical Methods for Time Dependent Differential Equations is an excellent textbook for upper-undergraduate courses in applied mathematics, engineering, and physics as well as a useful reference for physical scientists, engineers, numerical analysts, and mathematical modelers who use numerical experiments to test designs or predict and investigate phenomena from many disciplines.

About the author

HEINZ-OTTO KREISS, PHD, is Professor Emeritus in the Department of Mathematics at the University of California, Los Angeles and is a renowned mathematician in the field of applied mathematics.

OMAR EDUARDO ORTIZ, PHD, is Professor in the Department of Mathematics, Astronomy, and Physics at the National University of Crdoba, Argentina. Dr. Ortiz's research interests include analytical and numerical methods for PDEs applied in physics.

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