01022nam0-22003251i-450 99000331121040332120230502091915.088-205-0619-X000331121FED01000331121(Aleph)000331121FED0100033112120001010d1989----km-y0itay50------baitaITy-------001yy<<A >>new dictionary of economics and banking English-Italian Italian-EnglishDizionario commerciale inglese-italiano italiano-ingleseLivio CodeluppiMilanoCisalpino Goliardica1989XIX, 1466 p.25 cmEconomiaDizionari330.3Codeluppi,Livio246552ITUNINARICAUNIMARCBK990003311210403321330.3 COD /1LINGUE 2017DECLIDECLINew dictionary of economics and banking English-Italian Italian-English1100092UNINAING0101556cam a22003011i 4500991002900549707536160316s2011 gw a b 001 0 eng d9783642179426b14251450-39ule_instBibl. Dip.le Aggr. Ingegneria Innovazione - Sez. Ingegneria Innovazioneeng621.38153622New developments and applications in sensing technology /Subhas Chandra Mukhopadhyay, Aimé Lay-Ekuakille, and Anton Fuchs (eds.)Berlin :Springer,c2011x, 331 p. :ill. (some col.) ;24 cmLecture notes in electrical engineering ;v. 83Extended versions of papers presented at the 4th International Conference on Sensing Technology (ICST 2010), University of Salenato, Lecce, Italy, June 3-5, 2010Includes bibliographical references and author indexSensor networksDetectorsMukhopadhyay, Subhas Chandraauthorhttp://id.loc.gov/vocabulary/relators/aut731870Lay-Ekuakille, Aiméauthorhttp://id.loc.gov/vocabulary/relators/aut481271Fuchs, Anton.b1425145017-03-1616-03-16991002900549707536LE026 621.381536 MUK 01.01 201112026000070094le026Prof. Lay-Ekuakille / DonogE176.79-l- 40000.i1571531016-03-16New developments and applications in sensing technology1444063UNISALENTOle02616-03-16ma enggw 0003902nam 2200733 450 991081852050332120230617013914.03-05-008401-410.1515/9783050084015(CKB)3710000000359849(EBL)4008617(SSID)ssj0001484427(PQKBManifestationID)12550688(PQKBTitleCode)TC0001484427(PQKBWorkID)11431542(PQKB)10072673(MiAaPQ)EBC4008617(DE-B1597)239511(OCoLC)927290382(OCoLC)979587593(DE-B1597)9783050084015(Au-PeEL)EBL4008617(CaPaEBR)ebr11082536(CaONFJC)MIL810171(OCoLC)947128146(EXLCZ)99371000000035984920160229h20042004 uy 0engur||#||||||||txtccrTextures of time /Monika RathertReprint 2014Berlin, [Germany] :Akademie Verlag,2004.©20041 online resource (250 p.)Studia Grammatica,0081-6469 ;59Description based upon print version of record.3-05-004074-2 Includes bibliographical references.Front matter --Table of contents --1. Introduction --2. Looking at previous analyses --3. Presenting my own proposals --4. List of meaning rules --5. Summary --6. BibliographyDie Studie beschäftigt sich mit dem Perfekt im Deutschen und Englischen und dessen Verhältnis zu zwei Klassen von Adverbien. Die Klasse der durativen Adverbien ist seit Dowtys (1979) Word meaning and Montague grammar immer im Zusammenhang mit dem Perfekt diskutiert worden, weil diese Adverbien nur dann mehrdeutig zwischen einer universellen und einer existentiellen Lesart zu sein schienen. Datenrecherchen zeigen aber, dass diese Mehrdeutigkeiten bei allen Tempora vorkommen. Dies führt zu einer neuen Analyse der Durativadverbien, bei der die Quantifizierung über Teilintervalle von der Bedeutung des Durativs abgespalten und die Mehrdeutigkeiten als Skopusambiguitäten gedeutet werden. Die Theorie erzeugt auch Lesarten, die für manche Sprecher nicht akzeptabel sind; diese werden durch eine optimalitätstheoretische Komponente herausgefiltert. Die zweite in der Studie behandelte Klasse von Adverbien sind die Extended-Now-Adverbien wie schon immer. Diese wurden bisher nicht im Zusammenhang mit dem Perfekt diskutiert; hier wird anhand von Korpusdaten argumentiert, dass diese Adverbien eine Behandlung des deutschen und englischen Perfekts als Extended-Now erzwingen. Anterioritätstheorien in der Nachfolge von Reichenbach (1947) sind nicht haltbar. Das durch datenbasierte Untersuchungen motivierte Temporalsystem ist einfacher und kompositionaler als bestehende Ansätze.Studia grammatica ;59.Grammar, Comparative and generalTemporal constructionsGrammar, Comparative and generalTenseGrammar, Comparative and generalAdverbGerman languageGrammar, ComparativeEnglishEnglish languageGrammar, ComparativeGermanGrammar, Comparative and generalTemporal constructions.Grammar, Comparative and generalTense.Grammar, Comparative and generalAdverb.German languageGrammar, ComparativeEnglish.English languageGrammar, ComparativeGerman.415ES 460rvkRathert Monika1972-1605816MiAaPQMiAaPQMiAaPQBOOK9910818520503321Textures of time4026442UNINA05395nam 2200757 a 450 991081816140332120240516205347.09781283645058128364505X978111834238111183423809781118342404111834240297811183424111118342410(CKB)2550000000108192(EBL)978376(OCoLC)780415805(SSID)ssj0000715379(PQKBManifestationID)11472755(PQKBTitleCode)TC0000715379(PQKBWorkID)10703480(PQKB)11128875(MiAaPQ)EBC978376(DLC) 2012011416(Au-PeEL)EBL978376(CaPaEBR)ebr10582603(CaONFJC)MIL395755(PPN)165706724(Perlego)1011986(EXLCZ)99255000000010819220120229d2012 uy 0engurcn|||||||||txtccrRotating thermal flows in natural and industrial processes /Marcello Lappa1st ed.Hoboken, N.J. Wiley20121 online resource (542 p.)Description based upon print version of record.9781119960799 1119960797 Includes bibliographical references and index.Rotating Thermal Flows; Contents; Preface; Acknowledgements; Chapter 1 Equations, General Concepts and Nondimensional Numbers; 1.1 The Navier-Stokes and Energy Equations; 1.1.1 The Continuity Equation; 1.1.2 The Momentum Equation; 1.1.3 The Total Energy Equation; 1.1.4 The Budget of Internal Energy; 1.1.5 Closure Models; 1.2 Some Considerations about the Dynamics of Vorticity; 1.2.1 Vorticity and Circulation; 1.2.2 Vorticity in Two Dimensions; 1.2.3 Vorticity Over a Spherical Surface; 1.2.4 The Curl of the Momentum Equation; 1.3 Incompressible Formulation; 1.4 Buoyancy Convection1.4.1 The Boussinesq Model 1.4.2 The Grashof and Rayleigh Numbers; 1.5 Surface-Tension-Driven Flows; 1.5.1 Stress Balance; 1.5.2 The Reynolds and Marangoni Numbers; 1.5.3 The Microgravity Environment; 1.6 Rotating Systems: The Coriolis and Centrifugal Forces; 1.6.1 Generalized Gravity; 1.6.2 The Coriolis, Taylor and Rossby Numbers; 1.6.3 The Geostrophic Flow Approximation; 1.6.4 The Taylor-Proudman Theorem; 1.6.5 Centrifugal and Stratification Effects: The Froude Number; 1.6.6 The Rossby Deformation Radius; 1.7 Some Elementary Effects due to Rotation1.7.1 The Origin of Cyclonic and Anticyclonic flows 1.7.2 The Ekman Layer; 1.7.3 Ekman Spiral; 1.7.4 Ekman Pumping; 1.7.5 The Stewartson Layer; Chapter 2 Rayleigh-B ́enard Convection with Rotation; 2.1 Rayleigh-B ́enard Convection with Rotation in Infinite Layers; 2.1.1 Linear Stability Analysis; 2.1.2 Asymptotic Analysis; 2.2 The Kuppers-Lortz Instability and Domain Chaos; 2.3 Patterns with Squares; 2.4 Typical Phenomena for Pr = 1 and Small Values of the Coriolis Number; 2.4.1 Spiral Defect Chaos and Chiral Symmetry; 2.4.2 The Interplay between the Busse Balloon and the KL Instability2.5 The Low-Pr Hopf Bifurcation and Mixed States 2.5.1 Standing and Travelling Rolls; 2.5.2 Patterns with the Symmetry of Square and Hexagonal Lattices; 2.5.3 Other Asymptotic Analyses; 2.5.4 Nature and Topology of the Bifurcation Lines in the Space of Parameters (τ,Pr); 2.6 Laterally Confined Convection; 2.6.1 The First Bifurcation and Wall Modes; 2.6.2 The Second Bifurcation and Bulk Convection; 2.6.3 Square Patterns Driven by Nonlinear Interactions between Bulk and Wall Modes; 2.6.4 Square Patterns as a Nonlinear Combination of Bulk Fourier Eigenmodes; 2.6.5 Higher-Order Bifurcations2.7 Centrifugal Effects 2.7.1 Stably Thermally Stratified Systems; 2.7.2 Interacting Thermogravitational and Centrifugally Driven Flows; 2.7.3 The Effect of the Centrifugal Force on Domain Chaos; 2.8 Turbulent Rotating RB Convection; 2.8.1 The Origin of the Large-scale Circulation; 2.8.2 Rotating Vortical Plumes; 2.8.3 Classification of Flow Regimes; 2.8.4 Suppression of Large-scale Flow and Heat Transfer Enhancement; 2.8.5 Prandtl Number Effects; Chapter 3 Spherical Shells, Rossby Waves and Centrifugally Driven Thermal Convection; 3.1 The Coriolis Effect in Atmosphere Dynamics3.1.1 The Origin of the Zonal Winds"In this context, it is expressly shown how the aforementioned isomorphism between small and large scale phenomena becomes beneficial to the definition and ensuing development of an integrated comprehensive framework allowing the reader to understand and assimilate the underlying quintessential mechanisms without requiring, however, familiarity with specific literature on the subject"--Provided by publisher.HeatTransmissionRotating masses of fluidHeatTransmission.Rotating masses of fluid.536/.2SCI065000bisacshLappa Marcello964709MiAaPQMiAaPQMiAaPQBOOK9910818161403321Rotating thermal flows in natural and industrial processes3956150UNINA