09-24-2012, 02:30 PM
Variational Principles of Continuum Mechanics: I. Fundamentals
Author: Victor Berdichevsky | Size: 3.98 MB | Format: PDF | Quality: Original preprint | Publisher: Springer | Year: September 30, 2009 | pages: 586 | ISBN: 3540884661, ISBN-13: 978-3540884668
The book reviews the two features of the variational approach: its use as a universal tool to describe physical phenomena and as a source for qualitative and quantitative methods of studying particular problems.
Berdichevsky’s work differs from other books on the subject in focusing mostly on the physical origin of variational principles as well as establishing their interrelations. For example, the Gibbs principles appear as a consequence of the Einstein formula for thermodynamic fluctuations rather than as the first principles of the theory of thermodynamic equilibrium. Mathematical issues are considered as long as they shed light on the physical outcomes and/or provide a useful technique for the direct study of variational problems. In addition, a thorough account of variational principles discovered in various branches of continuum mechanics is given.
In this book, the first volume, the author covers the variational principles for systems with a finite number of degrees of freedom; the variational principles of thermodynamics; the basics of continuum mechanics; the variational principles for classical models of continuum mechanics, such as elastic and plastic bodies, and ideal and viscous fluids; and direct methods of calculus of variations.
Variational Principles of Continuum Mechanics: II. Applications
Author: Victor Berdichevsky | Size: 3.20 MB | Format: PDF | Quality: Original preprint | Publisher: Springer | Year: September 30, 2009 | pages: 439 | ISBN: 3540884688 ISBN-13: 978-3540884682
This book, the second volume, describes how the variational approach can be applied to constructing models of continuum media, such as the theory of elastic plates; shells and beams; shallow water theory; heterogeneous mixtures; granular materials; and turbulence. It goes on to apply the variational approach to asymptotical analysis of problems with small parameters, such as the derivation of the theory of elastic plates, shells and beams from three-dimensional elasticity theory; and the basics of homogenization theory. A theory of stochastic variational problems is considered in detail too, along with applications to the homogenization of continua with random microstructures.
Both volume in a single 5.5MB rar file
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