Variational Techniques for Elliptic Partial Differential Equations

Theoretical Tools and Advanced Applications

By: Francisco J. Sayas, Thomas S. Brown, Matthew E. Hassell

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Paperback | 30 September 2020 | Edition Number 1

At a Glance

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516 Pages

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23.4 x 15.6 x 2.64

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Variational Techniques for Elliptic Partial Differential Equations, intended for graduate students studying applied math, analysis, and/or numerical analysis, provides the necessary tools to understand the structure and solvability of elliptic partial differential equations. Beginning with the necessary definitions and theorems from distribution theory, the book gradually builds the functional analytic framework for studying elliptic PDE using variational formulations. Rather than introducing all of the prerequisites in the first chapters, it is the introduction of new problems which motivates the development of the associated analytical tools. In this way the student who is encountering this material for the first time will be aware of exactly what theory is needed, and for which problems.

Features

A detailed and rigorous development of the theory of Sobolev spaces on Lipschitz domains, including the trace operator and the normal component of vector fields
An integration of functional analysis concepts involving Hilbert spaces and the problems which can be solved with these concepts, rather than separating the two
Introduction to the analytical tools needed for physical problems of interest like time-harmonic waves, Stokes and Darcy flow, surface differential equations, Maxwell cavity problems, etc.
A variety of problems which serve to reinforce and expand upon the material in each chapter, including applications in fluid and solid mechanics

Industry Reviews

"This book proposes a modern and practical approach to the classical subject of elliptic partial differential equations. It provides the correct functional framework for proving the existence of weak solutions in a broad selection of model problems, in anticipation of their numerical approximation (with finite element and boundary element methods).

Assuming little beyond basic undergraduate mathematics, the book covers, step by step, an amount of topics that goes beyond most textbooks at this level. The first part (Chapters 1-9) is a self-contained and meticulously written text on linear elliptic boundary-value problems for graduate students. The remaining chapters tread in less explored territories with topics that cannot be found in many other textbooks. They include, for example, the study of Maxwell's equations with a detailed characterisation of the tangential trace spaces on Lipschitz domains, the Stokes-Darcy problem, dependence with respect to coefficients and elliptic problems on manifolds.

Each chapter ends with final comments written in an attractive and personal style with judicious references to specialised literature. In addition, there is a good selection of problems that offers students the opportunity to further expand their knowledge.

The richness of material, the clear exposition and distilled writing will appeal to students with interest in partial differential equations and their numerical analysis as well as to professional mathematicians. Even experienced instructors may benefit from the thoughtful approach of the book and from its original insight on the subject."

-Salim Meddahi, Universidad de Oviedo

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