Applied Calculus of Variations for Engineers - Rilegato

Komzsik, Louis

 
9781420086621: Applied Calculus of Variations for Engineers
Rilegato
ISBN 10: 1420086626 ISBN 13: 9781420086621
Casa editrice: CRC Press, 2009

Sinossi

The subject of calculus of variations is to find optimal solutions to engineering problems where the optimum may be a certain quantity, a shape, or a function. Applied Calculus of Variations for Engineers addresses this very important mathematical area applicable to many engineering disciplines. Its unique, application-oriented approach sets it apart from the theoretical treatises of most texts. It is aimed at enhancing the engineer’s understanding of the topic as well as aiding in the application of the concepts in a variety of engineering disciplines.

The first part of the book presents the fundamental variational problem and its solution via the Euler–Lagrange equation. It also discusses variational problems subject to constraints, the inverse problem of variational calculus, and the direct solution techniques of variational problems, such as the Ritz, Galerkin, and Kantorovich methods. With an emphasis on applications, the second part details the geodesic concept of differential geometry and its extensions to higher order spaces. It covers the variational origin of natural splines and the variational formulation of B-splines under various constraints. This section also focuses on analytic and computational mechanics, explaining classical mechanical problems and Lagrange’s equations of motion.

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Contenuti

MATHEMATICAL FOUNDATION

The Foundations of Calculus of Variations

The fundamental problem and lemma of calculus of variations

The Legendre test

The Euler–Lagrange differential equation

Application: minimal path problems

Open boundary variational problems

Constrained Variational Problems

Algebraic boundary conditions

Lagrange’s solution

Application: iso-perimetric problems

Closed-loop integrals

Multivariate Functionals

Functionals with several functions

Variational problems in parametric form

Functionals with two independent variables

Application: minimal surfaces

Functionals with three independent variables

Higher Order Derivatives

The Euler–Poisson equation

The Euler–Poisson system of equations

Algebraic constraints on the derivative

Application: linearization of second order problems

The Inverse Problem of the Calculus of Variations

The variational form of Poisson’s equation

The variational form of eigenvalue problems

Application: Sturm–Liouville problems

Direct Methods of Calculus of Variations

Euler’s method

Ritz method

Galerkin’s method

Kantorovich’s method

ENGINEERING APPLICATIONS

Differential Geometry

The geodesic problem

A system of differential equations for geodesic curves

Geodesic curvature

Generalization of the geodesic concept

Computational Geometry

Natural splines

B-spline approximation

B-splines with point constraints

B-splines with tangent constraints

Generalization to higher dimensions

Analytic Mechanics

Hamilton’s principle for mechanical systems

Elastic string vibrations

The elastic membrane

Bending of a beam under its own weight

Computational Mechanics

Three-dimensional elasticity

Lagrange’s equations of motion

Heat conduction

Fluid mechanics

Computational techniques

Closing Remarks

References

Index

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Editore
CRC Press
Data di pubblicazione
2009
Lingua
Inglese
ISBN 10 
1420086626
ISBN 13 
9781420086621
Rilegatura
Copertina rigida
Numero edizione
1
Numero di pagine
175
Contatto del produttore
non disponibile
Persona responsabile
non disponibile

Altre edizioni note dello stesso titolo

9780367376093: Applied Calculus of Variations for Engineers, Third edition

Edizione in evidenza

ISBN 10:  0367376091 ISBN 13:  9780367376093
Casa editrice: CRC Press, 2019
Rilegato