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100   $a20110127d2011      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aHydromechanics $etheory and fundamentals /$fEmmanuil G. Sinaiski
210   $aWeinheim, Germany $cWiley-VCH Verlag$d2011
215   $a1 online resource (520 p.)
300   $aDescription based upon print version of record.
311 08$a9783527410262 
311 08$a3527410260 
320   $aIncludes bibliographical references and index.
327   $aHydromechanics; Dedication; Contents; Preface; List of Symbols; 1 Introduction; 1.1 Goals and Methods of Continuum Mechanics; 1.2 The Main Hypotheses of Continuum Mechanics; 2 Kinematics of the Deformed Continuum; 2.1 Dynamics of the Continuum in the Lagrangian Perspective; 2.2 Dynamics of the Continuum in the Eulerian Perspective; 2.3 Scalar and Vector Fields and Their Characteristics; 2.4 Theory of Strains; 2.5 The Tensor of Strain Velocities; 2.6 The Distribution of Velocities in an Infinitesimal Continuum Particle; 2.7 Properties of Vector Fields. Theorems of Stokes and Gauss
327   $a3 Dynamic Equations of Continuum Mechanics3.1 Equation of Continuity; 3.2 Equations of Motion; 3.3 Equation of Motion for the Angular Momentum; 4 Closed Systems of Mechanical Equations for the Simplest Continuum Models; 4.1 Ideal Fluid and Gas; 4.2 Linear Elastic Body and Linear Viscous Fluid; 4.3 Equations in Curvilinear Coordinates; 4.3.1 Equation of Continuity; 4.3.2 Equation of Motion; 4.3.3 Gradient of a Scalar Function; 4.3.4 Laplace Operator; 4.3.5 Complete System of Equations of Motion for a Viscous, Incompressible Medium in the Absence of Heating
327   $a5 Foundations and Main Equations of Thermodynamics5.1 Theorem of the Living Forces; 5.2 Law of Conservation of Energy and First Law of Thermodynamics; 5.3 Thermodynamic Equilibrium, Reversible and Irreversible Processes; 5.4 Two Parameter Media and Ideal Gas; 5.5 The Second Law of Thermodynamics and the Concept of Entropy; 5.6 Thermodynamic Potentials of Two-Parameter Media; 5.7 Examples of Ideal and Viscous Media, and Their Thermodynamic Properties, Heat Conduction; 5.7.1 The Model of the Ideal, Incompressible Fluid; 5.7.2 The Model of the Ideal, Compressible Gas
327   $a5.7.3 The Model of Viscous Fluid5.8 First and Second Law of Thermodynamics for a Finite Continuum Volume; 5.9 Generalized Thermodynamic Forces and Currents, Onsager's Reciprocity Relations; 6 Problems Posed in Continuum Mechanics; 6.1 Initial Conditions and Boundary Conditions; 6.2 Typical Simplifications for Some Problems; 6.3 Conditions on the Discontinuity Surfaces; 6.4 Discontinuity Surfaces in Ideal Compressible Media; 6.5 Dimensions of Physical Quantities; 6.6 Parameters that Determine the Class of the Phenomenon; 6.7 Similarity and Modeling of Phenomena; 7 Hydrostatics
327   $a7.1 Equilibrium Equations7.2 Equilibrium in the Gravitational Field; 7.3 Force and Moment that Act on a Body from the Surrounding Fluid; 7.4 Equilibrium of a Fluid Relative to a Moving System of Coordinates; 8 Stationary Continuum Movement of an Ideal Fluid; 8.1 Bernoulli's Integral; 8.2 Examples of the Application of Bernoulli's Integral; 8.3 Dynamic and Hydrostatic Pressure; 8.4 Flow of an Incompressible Fluid in a Tube of Varying Cross Section; 8.5 The Phenomenon of Cavitation; 8.6 Bernoulli's Integral for Adiabatic Flows of an Ideal Gas
327   $a8.7 Bernoulli's Integral for the Flow of a Compressible Gas
330   $aWritten by an experienced author with a strong background in applications of this field, this monograph provides a comprehensive and detailed account of the theory behind hydromechanics. He includes numerous appendices with mathematical tools, backed by extensive illustrations. The result is a must-have for all those needing to apply the methods in their research, be it in industry or academia.
606   $aFluid mechanics
615  0$aFluid mechanics.
676   $a532
700   $aSinai?skii?$b E?. G$g(E?mmanuil Genrikhovich)$0866154
801  0$bMiAaPQ
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906   $aBOOK
912   $a9911019935803321
996   $aHydromechanics$94458982
997   $aUNINA