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Linear and Quasi-linear Evolution Equations in Hilbert Spaces
 
Linear and Quasi-linear Evolution Equations in Hilbert Spaces
Softcover ISBN:  978-1-4704-7144-6
Product Code:  GSM/135.S
List Price: $89.00
MAA Member Price: $80.10
AMS Member Price: $71.20
eBook ISBN:  978-0-8218-8784-4
Product Code:  GSM/135.E
List Price: $85.00
MAA Member Price: $76.50
AMS Member Price: $68.00
Softcover ISBN:  978-1-4704-7144-6
eBook: ISBN:  978-0-8218-8784-4
Product Code:  GSM/135.S.B
List Price: $174.00 $131.50
MAA Member Price: $156.60 $118.35
AMS Member Price: $139.20 $105.20
Linear and Quasi-linear Evolution Equations in Hilbert Spaces
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Linear and Quasi-linear Evolution Equations in Hilbert Spaces
Softcover ISBN:  978-1-4704-7144-6
Product Code:  GSM/135.S
List Price: $89.00
MAA Member Price: $80.10
AMS Member Price: $71.20
eBook ISBN:  978-0-8218-8784-4
Product Code:  GSM/135.E
List Price: $85.00
MAA Member Price: $76.50
AMS Member Price: $68.00
Softcover ISBN:  978-1-4704-7144-6
eBook ISBN:  978-0-8218-8784-4
Product Code:  GSM/135.S.B
List Price: $174.00 $131.50
MAA Member Price: $156.60 $118.35
AMS Member Price: $139.20 $105.20
  • Book Details
     
     
    Graduate Studies in Mathematics
    Volume: 1352012; 377 pp
    MSC: Primary 35

    This book considers evolution equations of hyperbolic and parabolic type. These equations are studied from a common point of view, using elementary methods, such as that of energy estimates, which prove to be quite versatile. The authors emphasize the Cauchy problem and present a unified theory for the treatment of these equations. In particular, they provide local and global existence results, as well as strong well-posedness and asymptotic behavior results for the Cauchy problem for quasi-linear equations. Solutions of linear equations are constructed explicitly, using the Galerkin method; the linear theory is then applied to quasi-linear equations, by means of a linearization and fixed-point technique. The authors also compare hyperbolic and parabolic problems, both in terms of singular perturbations, on compact time intervals, and asymptotically, in terms of the diffusion phenomenon, with new results on decay estimates for strong solutions of homogeneous quasi-linear equations of each type.

    This textbook presents a valuable introduction to topics in the theory of evolution equations, suitable for advanced graduate students. The exposition is largely self-contained. The initial chapter reviews the essential material from functional analysis. New ideas are introduced along with their context. Proofs are detailed and carefully presented. The book concludes with a chapter on applications of the theory to Maxwell's equations and von Karman's equations.

    Readership

    Graduate students and research mathematicians interested in partial differential equations.

  • Table of Contents
     
     
    • Chapters
    • Chapter 1. Functional framework
    • Chapter 2. Linear equations
    • Chapter 3. Quasi-linear equations
    • Chapter 4. Global existence
    • Chapter 5. Asymptotic behavior
    • Chapter 6. Singular convergence
    • Chapter 7. Maxwell’s and von Karman’s equations
  • Requests
     
     
    Review Copy – for publishers of book reviews
    Permission – for use of book, eBook, or Journal content
    Accessibility – to request an alternate format of an AMS title
Volume: 1352012; 377 pp
MSC: Primary 35

This book considers evolution equations of hyperbolic and parabolic type. These equations are studied from a common point of view, using elementary methods, such as that of energy estimates, which prove to be quite versatile. The authors emphasize the Cauchy problem and present a unified theory for the treatment of these equations. In particular, they provide local and global existence results, as well as strong well-posedness and asymptotic behavior results for the Cauchy problem for quasi-linear equations. Solutions of linear equations are constructed explicitly, using the Galerkin method; the linear theory is then applied to quasi-linear equations, by means of a linearization and fixed-point technique. The authors also compare hyperbolic and parabolic problems, both in terms of singular perturbations, on compact time intervals, and asymptotically, in terms of the diffusion phenomenon, with new results on decay estimates for strong solutions of homogeneous quasi-linear equations of each type.

This textbook presents a valuable introduction to topics in the theory of evolution equations, suitable for advanced graduate students. The exposition is largely self-contained. The initial chapter reviews the essential material from functional analysis. New ideas are introduced along with their context. Proofs are detailed and carefully presented. The book concludes with a chapter on applications of the theory to Maxwell's equations and von Karman's equations.

Readership

Graduate students and research mathematicians interested in partial differential equations.

  • Chapters
  • Chapter 1. Functional framework
  • Chapter 2. Linear equations
  • Chapter 3. Quasi-linear equations
  • Chapter 4. Global existence
  • Chapter 5. Asymptotic behavior
  • Chapter 6. Singular convergence
  • Chapter 7. Maxwell’s and von Karman’s equations
Review Copy – for publishers of book reviews
Permission – for use of book, eBook, or Journal content
Accessibility – to request an alternate format of an AMS title
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