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200 1 $a<<Il>> grande venditore di immagini$eelementi di semiotica del cinema$fLuca Forgione
210   $aRoma$cEditori Riuniti university press$d2009
215   $a214 p.$d21 cm
225 2 $aCognitio$v1
330   $aUn'introduzione alla semiotica del cinema, divisa in tre parti che affrontano alcune specifiche dimensioni teoriche. La prima parte si sofferma sulla nascita del dibattito in semiotica del cinema, dalla metā degli anni '60 fino agli anni '70, per approfondire le nozioni di segno, codice, testo. La seconda parte affronta in chiave narratologica gli studi filmici: la questione č stabilire le caratteristiche che definiscono la nozione di narrativitā e la possibilitā di assegnare al testo filmico lo statuto narrativo emerso dagli studi strettamente legati all'analisi testuale di natura scritturale. Infine, la terza parte si sofferma sulla dimensione pragmatica, in particolare approfondisce il dispositivo dell'enunciazione e sempre in chiave comparata prova a cogliere contiguitā e differenze tra l'ambito scritturale e quello filmico.
410  0$12001$aCognitio$v1
606 1 $aCinema$xLinguaggio
676   $a791.43014$v(22. ed.)$9Cinema. Linguaggi e comunicazione
700  1$aForgione,$bLuca$0329618
801  0$aIT$bUniversitā della Basilicata - B.I.A.$gREICAT$2unimarc
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181   $2rdacontent
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200 10$aTurbulence $ean introduction for scientists and engineers /$fP.A. Davidson
210  1$aOxford, United Kingdom ;$aNew York :$cOxford University Press,$d2004.
215   $a1 online resource (678 p.)
300   $aDescription based upon print version of record.
311   $a1-322-11172-3 
311   $a0-19-852949-X 
320   $aIncludes bibliographical references and index.
327   $aCover; Contents; Part I: The classical picture of turbulence; 1 The ubiquitous nature of turbulence; 1.1 The experiments of Taylor and Be?nard; 1.2 Flow over a cylinder; 1.3 Reynolds'' experiment; 1.4 Common themes; 1.5 The ubiquitous nature of turbulence; 1.6 Different scales in a turbulent flow: a glimpse at the energy cascade of Kolmogorov and Richardson; 1.7 The closure problem of turbulence; 1.8 Is there a ''theory of turbulence''?; 1.9 The interaction of theory, computation, and experiment; 2 The equations of fluid mechanics; 2.1 The Navier-Stokes equation
327   $a2.2 Relating pressure to velocity2.3 Vorticity dynamics; 2.4 A definition of turbulence; 3 The origins and nature of turbulence; 3.1 The nature of chaos; 3.2 Some elementary properties of freely evolving turbulence; 4 Turbulent shear flows and simple closure models; 4.1 The exchange of energy between the mean flow and the turbulence; 4.2 Wall-bounded shear flows and the log-law of the wall; 4.3 Free shear flows; 4.4 Homogeneous shear flow; 4.5 Heat transfer in wall-bounded shear flows-the log-law revisited; 4.6 More on one-point closure models
327   $a5 The phenomenology of Taylor, Richardson, and Kolmogorov5.1 Richardson revisited; 5.2 Kolmogorov revisited; 5.3 The intensification of vorticity and the stretching of material lines; 5.4 Turbulent diffusion by continuous movements; 5.5 Why turbulence is never Gaussian; 5.6 Closure; Appendix: The statistical equations for a passive scalar in isotropic turbulence: Yaglom''s four-thirds Law and Corrsin''s integral; Part II: Freely decaying, homogeneous turbulence; 6 Isotropic turbulence (In real space); 6.1 Introduction: exploring isotropic turbulence in real space
327   $a6.2 The governing equations of isotropic turbulence6.3 The dynamics of the large scales; 6.4 The characteristic signature of eddies of different shape; 6.5 Intermittency in the inertial-range eddies; 6.6 The distribution of energy and vorticity across the different eddy sizes; Appendix: Turbulence composed of Townsend''s model eddy; 7 The role of numerical simulations; 7.1 What is DNS or LES?; 7.2 On the dangers of periodicity; 7.3 Structure in chaos; 7.4 Postscript; 8 Isotropic turbulence (in spectral space); 8.1 Kinematics in spectral space; 8.2 Dynamics in spectral space
327   $aPart III: Special topics9 The influence of rotation, stratification, and magnetic fields on turbulence; 9.1 The importance of body forces in geophysics and astrophysics; 9.2 The influence of rapid rotation and stable stratification; 9.3 The influence of magnetic fields I-the MHD equations; 9.4 The influence of magnetic fields II-MHD turbulence; 9.5 The combined effects of Coriolis and Lorentz forces; 10 Two-dimensional turbulence; 10.1 The classical picture of two-dimensional turbulence: Batchelor''s self-similar spectrum; 10.2 Coherent vortices: a problem for the classical theory
327   $a10.3 The governing equations in statistical form
330   $aBased on a taught by the author at the University of Cambridge, this comprehensive text on turbulence and fluid dynamics is aimed at year 4 undergraduates and graduates in applied mathematics, physics, and engineering, and provides an ideal reference for industry professionals and researchers. It bridges the gap between elementary accounts of turbulence found in undergraduate texts and more rigorous accounts given in monographs on the subject. Containing manyexamples, the author combines the maximum of physical insight with the minimum of mathematical detail where possible. The text is highly 
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