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Author: V. K. Dzyadyk
Publisher: Walter de Gruyter GmbH & Co KG
Published: 2018-11-05
Total Pages: 332
ISBN-13: 3110944693
DOWNLOAD EBOOK →No detailed description available for "Approximation Methods for Solutions of Differential and Integral Equations".
Author: Solomon Grigorʹevich Mikhlin
Publisher:
Published: 1967
Total Pages: 328
ISBN-13:
DOWNLOAD EBOOK →The aim of this book is to acquaint the reader with the most important and powerful methods of approximate solution of boundary-value problems (including the Cauchy problem) for differential equations, both ordinary and partial, as well as approximate methods for solution of the most frequently encountered types of integral equations: Fredholm, Volterra and singular one-dimensional. This covers the entire domain of classical applications of mathematical analysis to mechanics, engineering, and mathematical physics.
Author: Hans-Jürgen Reinhardt
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 412
ISBN-13: 1461210801
DOWNLOAD EBOOK →This book is primarily based on the research done by the Numerical Analysis Group at the Goethe-Universitat in Frankfurt/Main, and on material presented in several graduate courses by the author between 1977 and 1981. It is hoped that the text will be useful for graduate students and for scientists interested in studying a fundamental theoretical analysis of numerical methods along with its application to the most diverse classes of differential and integral equations. The text treats numerous methods for approximating solutions of three classes of problems: (elliptic) boundary-value problems, (hyperbolic and parabolic) initial value problems in partial differential equations, and integral equations of the second kind. The aim is to develop a unifying convergence theory, and thereby prove the convergence of, as well as provide error estimates for, the approximations generated by specific numerical methods. The schemes for numerically solving boundary-value problems are additionally divided into the two categories of finite difference methods and of projection methods for approximating their variational formulations.
Author: Instytut matematyky (Akademii︠a︡ nauk Ukraïnsʹkoï RSR)
Publisher:
Published: 1967
Total Pages: 236
ISBN-13:
DOWNLOAD EBOOK →Author: M. A. Goldberg
Publisher: Springer Science & Business Media
Published: 2013-11-21
Total Pages: 351
ISBN-13: 1475714661
DOWNLOAD EBOOK →Author: Harold Cohen
Publisher: Springer Science & Business Media
Published: 2011-12-10
Total Pages: 493
ISBN-13: 1441998373
DOWNLOAD EBOOK →This book presents numerical and other approximation techniques for solving various types of mathematical problems that cannot be solved analytically. In addition to well known methods, it contains some non-standard approximation techniques that are now formally collected as well as original methods developed by the author that do not appear in the literature. This book contains an extensive treatment of approximate solutions to various types of integral equations, a topic that is not often discussed in detail. There are detailed analyses of ordinary and partial differential equations and descriptions of methods for estimating the values of integrals that are presented in a level of detail that will suggest techniques that will be useful for developing methods for approximating solutions to problems outside of this text. The book is intended for researchers who must approximate solutions to problems that cannot be solved analytically. It is also appropriate for students taking courses in numerical approximation techniques.
Author: Barbara S Bertram
Publisher: CRC Press
Published: 2019-05-20
Total Pages: 380
ISBN-13: 9781420036039
DOWNLOAD EBOOK →Based on proceedings of the International Conference on Integral Methods in Science and Engineering, this collection of papers addresses the solution of mathematical problems by integral methods in conjunction with approximation schemes from various physical domains. Topics and applications include: wavelet expansions, reaction-diffusion systems, variational methods , fracture theory, boundary value problems at resonance, micromechanics, fluid mechanics, combustion problems, nonlinear problems, elasticity theory, and plates and shells.
Author: Andrei D. Polyanin
Publisher: CRC Press
Published: 2008-02-12
Total Pages: 1143
ISBN-13: 0203881052
DOWNLOAD EBOOK →Unparalleled in scope compared to the literature currently available, the Handbook of Integral Equations, Second Edition contains over 2,500 integral equations with solutions as well as analytical and numerical methods for solving linear and nonlinear equations. It explores Volterra, Fredholm, WienerHopf, Hammerstein, Uryson, and other equa
Author: Michael A. Golberg
Publisher: Springer Science & Business Media
Published: 2013-11-11
Total Pages: 428
ISBN-13: 1489925937
DOWNLOAD EBOOK →In 1979, I edited Volume 18 in this series: Solution Methods for Integral Equations: Theory and Applications. Since that time, there has been an explosive growth in all aspects of the numerical solution of integral equations. By my estimate over 2000 papers on this subject have been published in the last decade, and more than 60 books on theory and applications have appeared. In particular, as can be seen in many of the chapters in this book, integral equation techniques are playing an increas ingly important role in the solution of many scientific and engineering problems. For instance, the boundary element method discussed by Atkinson in Chapter 1 is becoming an equal partner with finite element and finite difference techniques for solving many types of partial differential equations. Obviously, in one volume it would be impossible to present a complete picture of what has taken place in this area during the past ten years. Consequently, we have chosen a number of subjects in which significant advances have been made that we feel have not been covered in depth in other books. For instance, ten years ago the theory of the numerical solution of Cauchy singular equations was in its infancy. Today, as shown by Golberg and Elliott in Chapters 5 and 6, the theory of polynomial approximations is essentially complete, although many details of practical implementation remain to be worked out.
