01059nam--2200361---450-99000602274020331620150403124821.0987-508-597-9000602274USA01000602274(ALEPH)000602274USA0100060227420150403d2006----km-y0itay50------baspaAR||||||||001yy<<La>> Reforma Universitaria (1918-2006)Alberto Ciria, Horacio SanguinetiSanta FeEdicionesSunlcopyr. 2006413 p.22 cmItinerarios2001ItinerariosUniversitàArgentinaRiforma1918-1930BNCF378.82CIRIA,Alberto620110SANGUINETI,Horacio620111ITsalbcISBD990006022740203316378.82 CIR532 Crd.378.8200330625BKCRDPAOLA9020150403USA011248Reforma Universitaria (1918-20061077409UNISA01575oam 2200397 450 991071187860332120191209105156.0(CKB)5470000002487293(OCoLC)1128185745(EXLCZ)99547000000248729320191121j201812 ua 0engurmn|||||||||txtrdacontentcrdamediacrrdacarrierTRACE VVER-440/V-213 model validation /prepared by: S. Iegan [and four others]Washington, DC :Division of Systems Analysis, Office of Nuclear Regulatory Research, Nuclear Regulatory Commission,December 2018.1 online resource (various pagings) illustrations (some color)International agreement report ;NUREG/IA-0485"Kirk Tien, NRC project manager.""Manuscript completed: February 2017; Date published: December 2018."Includes bibliographical references.Nuclear power plantsSafety measuresMathematical modelsNuclear power plantsSafety measuresMathematical modelsfastNuclear power plantsSafety measuresMathematical models.Nuclear power plantsSafety measuresMathematical models.Iegan S.1404985U.S. Nuclear Regulatory Commission.Division of Systems Analysis,GPOGPOGPOBOOK9910711878603321TRACE VVER-4403480684UNINA02971nam 22007213 450 991088804730332120240907060231.097819143633061914363302(MiAaPQ)EBC31648898(Au-PeEL)EBL31648898(CKB)34825491400041(Exl-AI)31648898(OCoLC)1455116554(EXLCZ)993482549140004120240907d2024 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierHow French Moderns Think The lévy-Bruhl Family, from Primitive Mentality to Contemporary Pandemics1st ed.Chicago :Hawoo Publishing Company,2024.©2023.1 online resource (234 pages)9781914363023 1914363027 Frédéric Keck's 'How French Moderns Think' explores the intellectual legacy of the Lévy-Bruhl family, tracing four generations from Lucien Lévy-Bruhl to contemporary figures in sociology, criminology, and public health. The book delves into the evolution of French social theory against historical backdrops like the Dreyfus Affair and the rise of statistics and epidemiology. By examining the contributions of each family member, Keck highlights shifts in sociological thought and the integration of irrationality within rational frameworks. The book is intended for readers interested in the history of social science, anthropology, and French intellectual history.Generated by AI.Vigilance (Psychology)PreparednessSocial aspectsEmergency managementSocial aspectsRisk assessmentSocial aspectsSocial sciencesHistory20th centuryRisk assessmentVigilance (Psychologie)État de préparationAspect socialÉvaluation du risqueAspect socialSciences socialesHistoire20e siècleÉvaluation du risquerisk assessmentaatVigilance (Psychology)PreparednessSocial aspects.Emergency managementSocial aspects.Risk assessmentSocial aspects.Social sciencesHistoryRisk assessment.Vigilance (Psychologie)État de préparationAspect social.Évaluation du risqueAspect social.Sciences socialesHistoireÉvaluation du risque.risk assessment.194Keck édéric1769255Fischer Michael M. J142790MiAaPQMiAaPQMiAaPQBOOK9910888047303321How French Moderns Think4237965UNINA05336nam 2200661Ia 450 991101979370332120200520144314.09786611764197978128176419512817641919783527613588352761358797835276135953527613595(CKB)1000000000377520(EBL)482147(OCoLC)261342848(SSID)ssj0000154290(PQKBManifestationID)11156412(PQKBTitleCode)TC0000154290(PQKBWorkID)10407576(PQKB)11637424(MiAaPQ)EBC482147(Perlego)2768034(EXLCZ)99100000000037752020000726d1999 uy 0engur|n|---|||||txtccrFerroelectric and antiferroelectric liquid crystals /Sven T. LagerwallWeinheim ;New York Wiley-VCHc19991 online resource (448 p.)Description based upon print version of record.9783527298310 3527298312 Includes bibliographical references (p. [405]-415) and index.Ferroelectric and Antiferroelectric Liquid Crystals; Contents; List of Symbols and Abbreviations; 1 Introduction; 2 Polar Materials and Effects; 2.1 Polar and Nonpolar Dielectrics; 2.2 The Nonpolarity of Liquid Crystals in General; 2.3 Behavior of Dielectrics in Electric Fields: Classification of Polar Materials; 2.4 Developments in the Understanding of Polar Effects; 2.5 The van der Waals Attraction and Born's Mean Field Theory; 2.6 Landau Preliminaries . The Concept of Order Parameter; 2.7 The Simplest Description of a Ferroelectric; 2.8 Improper Ferroelectrics; 2.9 The Piezoelectric Phase3 The Necessary Conditions for Macroscopic Polarization3.1 The Neumann and Curie Principles; 3.2 Franz Neumann, Königsberg, and the Rise of Theoretical Physics; 3.3 Neumann's Principle Applied to Liquid Crystals; 3.4 The Surface-Stabilized State; 3.5 Chirality and its Consequences; 3.6 The Curie Principle and Piezoelectricity; 3.7 Hermann's Theorem; 3.8 The Importance of Additional Symmetries; 3.9 Optical Activity and Enantiomorphism; 3.10 Non-Chiral Polar and NLO-Active Liquid Crystals; 4 The Flexoelectric Polarization; 4.1 Deformations from the Ground State of a Nematic4.2 The Flexoelectric Coefficients4.3 The Molecular Picture; 4.4 Analogies and Contrasts to the Piezoelectric Effect; 4.5 The Importance of Rational Sign Conventions; 4.6 Singularities are Charged in Liquid Crystals; 4.7 The Flexoelectrooptic Effect; 4.8 Why Can a Cholesteric Phase not be Biaxial?; 4.9 Flexoelectric Effects in the Smectic A Phase; 4.10 Flexoelectric Effects in the Smectic C Phase; 5 The SmA* - SmC* Transition and the Helical C* State; 5.1 The Smectic C Order Parameter; 5.2 The SmA* - SmC* Transition; 5.3 The Smectic C* Order Parameters; 5.4 The Helical Smectic C* State5.5 The Flexoelectric Contribution in the Helical State5.6 Nonchiral Helielectrics and Antiferroelectrics; 5.7 Mesomorphic States without Director Symmetry; 5.8 Simple Landau Expansions; 5.9 The Electroclinic Effect; 5.10 The Deformed Helix Mode in Short Pitch Materials; 5.11 The Landau Expansion for the Helical C* State; 5.12 The Pikin-Indenbom Order Parameter; 6 Electrooptics in the Surface-Stabilized State; 6.1 The Linear Electrooptic Effect; 6.2 The Quadratic Torque; 6.3 Switching Dynamics; 6.4 The Scaling Law for the Cone Mode Viscosity6.5 Simple Solutions of the Director Equation of Motion6.6 Electrooptic Measurements; 6.7 Optical Anisotropy and Biaxiality; 6.8 The Effects of Dielectric Biaxiality; 6.9 The Viscosity of the Rotational Modes in the Smectic C Phase; 7 Dielectric Spectroscopy To Find the y^ and e^ Tensor Components; 7.1 Viscosities of Rotational Modes; 7.2 The Viscosity of the collective Modes; 7.3 The Viscosity of the Noncollective Modes; 7.4 The Viscosity yø from Electrooptic Measurements; 7.5 The Dielectric Permittivity Tensor; 7.6 The Case of Helical Smectic C* Structures; 7.7 Three Sample Geometries7.8 Tilted Smectic LayersThe study of ferroelectricity is a branch of solid state physics which has shown rapid growth during the recent years. Ferroelectric materials exhibit unusual electric properties which make them useful in modern (opto)electronic technology, esp. display technology.Ferroelectric and antiferroelectric liquid crystals, including also various polymer forms, are the hottest research topic today in liquid crystals. The field is at the very beginning of industrial exploitation - a sensitive phase in which a good reference work is needed and will have a broad spectrum of readers both at universitiFerroelectric crystalsLiquid crystalsFerroelectric crystals.Liquid crystals.530.4/29Lagerwall Sven T(Sven Torbjorn)1839018MiAaPQMiAaPQMiAaPQBOOK9911019793703321Ferroelectric and antiferroelectric liquid crystals4418133UNINA