NEVER MISS AN OXFORD SALE (SIGN UP HERE) |   VIEW BASKET
 
 
Advanced Search
 Need Help?
UK and Europe
Book Catalogue
Help with online ordering
How to order
Postage
Returns policy
Search the catalogue
VAT rates
   
Authors
Description
Reviews
Table of Contents

The Porous Medium Equation
Mathematical Theory

Juan Luis Vazquez

Price: £68.00 (hardback)
ISBN-13: 978-0-19-856903-9
Publication date: 26 October 2006
648 pages, 234x156 mm
 Series: Oxford Mathematical Monographs
Search for titles in the same series
 Ordering
Individual customers:
order by phone, post, or fax

Teachers in UK and European schools (and FE colleges in the UK):
order by phone, post, or fax

Reviews
  • 'The author of this monograph skillfully guides the reader, whether mathematician or physicist, through the background needed to understand and use the modern techniques developed in this work.' - mathematical reviews
  • 'This book is a pleasure to read. It will be an excellent source, allowing the reader to build a proper intuition and to understand the basic facts of the theory.' -

Description
  • Systematic and comprehensive presentation
  • Detailed introductions to chapters
  • End of chapter notes provide comments, historical notes and recommended reading
  • Provides end of chapter exercises to consolidate the text
  • Extensive bibliography
The Heat Equation is one of the three classical linear partial differential equations of second order that form the basis of any elementary introduction to the area of PDEs, and only recently has it come to be fairly well understood. In this monograph, aimed at research students and academics in mathematics and engineering, as well as engineering specialists, Professor Vazquez provides a systematic and comprehensive presentation of the mathematical theory of the nonlinear heat equation usually called the Porous Medium Equation (PME). This equation appears in a number of physical applications, such as to describe processes involving fluid flow, heat transfer or diffusion. Other applications have been proposed in mathematical biology, lubrication, boundary layer theory, and other fields. Each chapter contains a detailed introduction and is supplied with a section of notes, providing comments, historical notes or recommended reading, and exercises for the reader.

Readership: Research students and academics in mathematics and engineering, as well as engineering specialists.

Contents
Preface
1. Introduction
Part 1
2. Main Applications
3. Preliminaries and Basic Estimates
4. Basic Examples
5. The Dirichlet Problem I. Weak Solutions
6. The Dirichlet Problem II. Limit Solutions, Very Weak Solutions and Some Other Variants
7. Continuity of Local Solutions
8. The Dirichlet Problem III. Strong Solutions
9. The Cauchy Problem. L' theory
10. The PME as an Abstract Evolution Equation. Semigroup Approach
11. The Neumann Problem and Problems on Manifolds
Part 2
12. The Cauchy Problem with Growing Initial Data
13. Optimal Existence Theory for Nonnegative Solutions
14. Propagation Properties
15. One-dimensional Theory. Regularity and Interfaces
16. Full Analysis of Selfsimilarity
17. Techniques of Symmetrization and Concentration
18. Asymptotic Behavior I. The Cauchy Problem
19. Regularity and Finer Asymptotics in Several Dimensions
20. Asymptotic Behavior II. Dirichlet and Neumann Problems
Complements
21. Further Applications
22. Basic Facts and Appendices
Bibliography
Index

Authors, editors, and contributors


Juan Luis Vazquez, Universidad Autonoma de Madrid


Links to web resources and related information
More in the same subject area:
Mathematics
Engineering thermodynamics
Applied mathematics
Thermodynamics & statistical physics
Physics
Engineering: general

The specification in this catalogue, including without limitation price, format, extent, number of illustrations, and month of publication, was as accurate as possible at the time the catalogue was compiled. Occasionally, due to the nature of some contractual restrictions, we are unable to ship a specific product to a particular territory. Jacket images are provisional and liable to change before publication.

 
Privacy Policy and Legal Notice
Content and Graphics copyright Oxford University Press, 2008. All rights reserved.