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Partial Differential Equations Jeffrey Rauch

Partial Differential Equations By Jeffrey Rauch

Partial Differential Equations by Jeffrey Rauch


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Summary

In our department, students with a variety of specialties-notably differen tial geometry, numerical analysis, mathematical physics, complex analysis, physics, and partial differential equations-have a need for such a course.

Partial Differential Equations Summary

Partial Differential Equations by Jeffrey Rauch

This book is based on a course I have given five times at the University of Michigan, beginning in 1973. The aim is to present an introduction to a sampling of ideas, phenomena, and methods from the subject of partial differential equations that can be presented in one semester and requires no previous knowledge of differential equations. The problems, with hints and discussion, form an important and integral part of the course. In our department, students with a variety of specialties-notably differen tial geometry, numerical analysis, mathematical physics, complex analysis, physics, and partial differential equations-have a need for such a course. The goal of a one-term course forces the omission of many topics. Everyone, including me, can find fault with the selections that I have made. One of the things that makes partial differential equations difficult to learn is that it uses a wide variety of tools. In a short course, there is no time for the leisurely development of background material. Consequently, I suppose that the reader is trained in advanced calculus, real analysis, the rudiments of complex analysis, and the language offunctional analysis. Such a background is not unusual for the students mentioned above. Students missing one of the essentials can usually catch up simultaneously. A more difficult problem is what to do about the Theory of Distributions.

Partial Differential Equations Reviews

...this is an outstanding text presenting a healthy challenge not only to students but also to teachers used to more traditional or more pedestrian developments of the subject.--MATHEMATICAL REVIEWS

Table of Contents

1 Power Series Methods.- 1.1. The Simplest Partial Differential Equation.- 1.2. The Initial Value Problem for Ordinary Differential Equations.- 1.3. Power Series and the Initial Value Problem for Partial Differential Equations.- 1.4. The Fully Nonlinear Cauchy-Kowaleskaya Theorem.- 1.5. Cauchy-Kowaleskaya with General Initial Surfaces.- 1.6. The Symbol of a Differential Operator.- 1.7. Holmgren's Uniqueness Theorem.- 1.8. Fritz John's Global Holmgren Theorem.- 1.9. Characteristics and Singular Solutions.- 2 Some Harmonic Analysis.- 2.1. The Schwartz Space $$\\mathcal{J}({\\mathbb{R}^d})$$.- 2.2. The Fourier Transform on $$\\mathcal{J}({\\mathbb{R}^d})$$.- 2.3. The Fourier Transform onLp$${\\mathbb{R}^d}$$d):1 ?p?2.- 2.4. Tempered Distributions.- 2.5. Convolution in $$\\mathcal{J}({\\mathbb{R}^d})$$ and $$\\mathcal{J}'({\\mathbb{R}^d})$$.- 2.6. L2Derivatives and Sobolev Spaces.- 3 Solution of Initial Value Problems by Fourier Synthesis.- 3.1. Introduction.- 3.2. Schroedinger's Equation.- 3.3. Solutions of Schroedinger's Equation with Data in $$\\mathcal{J}({\\mathbb{R}^d})$$.- 3.4. Generalized Solutions of Schroedinger's Equation.- 3.5. Alternate Characterizations of the Generalized Solution.- 3.6. Fourier Synthesis for the Heat Equation.- 3.7. Fourier Synthesis for the Wave Equation.- 3.8. Fourier Synthesis for the Cauchy-Riemann Operator.- 3.9. The Sideways Heat Equation and Null Solutions.- 3.10. The Hadamard-Petrowsky Dichotomy.- 3.11. Inhomogeneous Equations, Duhamel's Principle.- 4 Propagators andx-Space Methods.- 4.1. Introduction.- 4.2. Solution Formulas in x Space.- 4.3. Applications of the Heat Propagator.- 4.4. Applications of the Schroedinger Propagator.- 4.5. The Wave Equation Propagator ford = 1.- 4.6. Rotation-Invariant Smooth Solutions of $${\\square _{1 + 3}}\\mu = 0$$.- 4.7. The Wave Equation Propagator ford =3.- 4.8. The Method of Descent.- 4.9. Radiation Problems.- 5 The Dirichlet Problem.- 5.1. Introduction.- 5.2. Dirichlet's Principle.- 5.3. The Direct Method of the Calculus of Variations.- 5.4. Variations on the Theme.- 5.5.H1 the Dirichlet Boundary Condition.- 5.6. The Fredholm Alternative.- 5.7. Eigenfunctions and the Method of Separation of Variables.- 5.8. Tangential Regularity for the Dirichlet Problem.- 5.9. Standard Elliptic Regularity Theorems.- 5.10. Maximum Principles from Potential Theory.- 5.11. E. Hopf's Strong Maximum Principles.- APPEND.- A Crash Course in Distribution Theory.- References.

Additional information

NLS9781461269595
9781461269595
1461269598
Partial Differential Equations by Jeffrey Rauch
New
Paperback
Springer-Verlag New York Inc.
2012-10-17
266
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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