Overview

Faculty of Engineering, University of Alberta; Faculty of Science, University of Alberta. As on previous occasions, advice and general guidance were provided by the International Steering Committee. The next IMSE conference will be held in August 2002 at the University be found on the of Saint-Etienne, France. Details concerning this event can VVEB pagehttp://wwwean. univ-st-etienne. fr/imse2002/index. htm. This volume contains five invited papers and thirty-five contributed pa- pers accepted after peer review. The papers are arranged in alphabetical order by (first) author's surname. The editors would like to record their thanks to the referees for their willingness to review the papers, and to the staff at Birkhauser Boston, who have handled the publication process with impressive efficiency. But, above all, they are indebted to Edward McDonald, Alan Morrison, and Alan Bryden for their help in the preparation of the typescript. Glasgow, United Kingdom Christian Constanda, IMSE Chairman The International Steering Committee of IMSE: C. Constanda (University of Strathclyde, Glasgow), Chairman M. Ahues (University of Saint-Etienne) B. Bertram (Michigan Technological University) H. H. Chiu (National Chen Kung University, Tainan) C. Corduneanu (University of Texas at Arlington) R. P. Gilbert (University of Delaware) A. Haji-Sheikh (University of Texas at Arlington) V. P. Korobeinikov (Institute for Computer Aided Design, Moscow) A. Largillier (University of Saint-Etienne) A. Mioduchowski (University of Alberta, Edmonton) D. Mitrea (University of Missouri-Columbia) A. Nastase (Rhein. -VVestf. Technische Hochschule, Aachen) K. Oshima (Japan Society of Computational Fluid Dynamics, Tokyo) F. R.

Full Product Details

Author:   P. Schiavone ,  C. Constanda ,  Andrew Mioduchowski
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   Softcover reprint of the original 1st ed. 2002
Dimensions:   Width: 15.50cm , Height: 1.50cm , Length: 23.50cm
Weight:   0.450kg
ISBN:  

9781461266174

ISBN 10:   1461266173
Pages:   264
Publication Date:   23 October 2012
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Content.- 1 Use of Elastodynamic Reciprocity Theorems for Field Calculations.- 2 Linear Solvers for the Galerkin Boundary Element Method.- 3 Reciprocity of Hopf ’s and Feautrier’s Operators in Radiation Transport Theory.- 4 Spectral Approximation of Weakly Singular Integrable Kernels Using Projections.- 5 Effect of Imperfect Interface on Thermal Inclusion with an Interior Radial Crack.- 6 An Integrodifferential Equation of Atomic Diffusion.- 7 Nonradiating Dislocations in Uniform Supersonic Motion in Anisotropic Linear Elastic Solids.- 8 On the Use of the Conjugate Gradient Method for the Numerical Solution of First-Kind Integral Equations in Two Variables.- 9 On the Stopping Criteria for Conjugate Gradient Solutions of First-Kind Integral Equations in Two Variables.- 10 An Initial-Boundary Value Problem for Thermoelastic Plates.- 11 A Global Existence Result for Functional Differential Equations with Causal Operators.- 12 Direct Stiffness-Modification Route to Linear Consistency Between Incompatible Finite Element Meshes.- 13 Nonlinear Dynamic Analysis of a Curved Beam Structure Using a Finite Element Method.- 14 Seminal Ideas in Integral Methods.- 15 Mixed Boundary Value Problem with Two Displacement Boundaries for Thin Plate Bending.- 16 Use of Cross-Referencing for Solving the Parameter Choice Problem in Generalized CLS.- 17 Numerical Technique for Solving an Ordinary Differential Equation by Picard’s Method.- 18 On a Class of Boundary Conditions Splitting Coupled Thermoelasticity Problems.- 19 Recent Mathematical Developments for Functionally Graded Linearly Elastic Materials.- 20 Ground Vibration Dynamics During Pile Hammering.- 21 Connection Between Liquid Crystal Theory and Plate Theory.- 22 Product Integration Quadratures for the Radiative TransferProblem with Hopf’s Kernel.- 23 A Numerical Scheme for Determining Diffraction Coefficients in Anisotropic Materials.- 24 Effect of Imperfect Inclusion/Matrix Interaction Between a Circular Inclusion and a Radial Matrix Crack.- 25 Neutral Equations with Causal Operators.- 26 Computation of Free-Surface Flows Under the Influence of Pressure Distribution.- 27 Solution of Eigenvalue Problems for Rectangular Plates by Differential Transformation.- 28 Free Vibrations of Structural Hyperbolic Paraboloid Networks.- 29 Sharp Invertibility Results for Layer Potentials in 2D.- 30 An Enhanced Theory of Bending of Plates.- 31 Comparison of Zonal, Spectral Solutions for Compressible Boundary Layer and Navier—Stokes Equations.- 32 Hybrid Laplace and Poisson Solvers I: Dirichlet Boundary Conditions.- 33 Estimation of Boundary Conditions from Different Experimental Data Using the LTSNMethod and Tikhonov Regularization.- 34 Analytical-Numerical Treatment of the One-Phase Stefan Problem with Constant Applied Heat Flux.- 35 Integral Equations Arising in Boundary Value Problems at Resonance.- 36 Thermal Stress Analysis of an Elliptic Inclusion with Imperfect Interface Embedded in an Infinite Elastic Medium.- 37 Three-Dimensional Elasticity Solutions for Anisotropic and Inhomogeneous Plates and Shells.- 38 A Circular Inclusion with Homogeneous Interface.- 39 Multiwavelets for Geometrically Complicated Domains and Their Application to Boundary Element Methods.- 40 Mathematical Investigation of Contact Problems with Friction in Fracture Dynamics.

Reviews

The present book...focuses on the solution of mathematical models from various physical domains, using integral methods in conjunction with approximation schemes. Actually, its aim is to show...research work in which integration, in one form or another, is the main investigative tool. A lot of problems are solved in areas such as solid mechanics, fluid dynamics, thermoelasticity, plates and shells, liquid crystals, diffusion and diffraction theory, Hamiltonian systems, resonance, nonlinear waves, plasma, flight dynamics and structural networks.... Generally, this book provides new results in the study of various physical and mechanical models and offers illustrations of efficient methods with numerical results and analytical methods. It can be useful to researchers and practitioners in applied mathematics, mechanical engineering and theoretical physicists, interested in current research in ordinary and partial differential equations, integral equations and numerical analysis. -Memoriile Sectiilor Stiintifice

The present book...focuses on the solution of mathematical models from various physical domains, using integral methods in conjunction with approximation schemes. Actually, its aim is to show...research work in which integration, in one form or another, is the main investigative tool. A lot of problems are solved in areas such as solid mechanics, fluid dynamics, thermoelasticity, plates and shells, liquid crystals, diffusion and diffraction theory, Hamiltonian systems, resonance, nonlinear waves, plasma, flight dynamics and structural networks.... Generally, this book provides new results in the study of various physical and mechanical models and offers illustrations of efficient methods with numerical results and analytical methods. It can be useful to researchers and practitioners in applied mathematics, mechanical engineering and theoretical physicists, interested in current research in ordinary and partial differential equations, integral equations and numerical analysis. -Memoriile Sectiilor Stiintifice

The present book...focuses on the solution of mathematical models from various physical domains, using integral methods in conjunction with approximation schemes. Actually, its aim is to show...research work in which integration, in one form or another, is the main investigative tool. A lot of problems are solved in areas such as solid mechanics, fluid dynamics, thermoelasticity, plates and shells, liquid crystals, diffusion and diffraction theory, Hamiltonian systems, resonance, nonlinear waves, plasma, flight dynamics and structural networks... Generally, this book provides new results in the study of various physical and mechanical models and offers illustrations of efficient methods with numerical results and analytical methods. It can be useful to researchers and practitioners in applied mathematics, mechanical engineering and theoretical physicists, interested in current research in ordinary and partial differential equations, integral equations and numerical analysis. -Memoriile Sectiilor Stiintifice

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