04314oam 2200841I 450 991045800280332120200520144314.01-134-28998-71-280-30247-X97866103024750-203-48322-710.4324/9780203483220 (CKB)1000000000359852(EBL)243285(OCoLC)352862506(SSID)ssj0000236666(PQKBManifestationID)11191368(PQKBTitleCode)TC0000236666(PQKBWorkID)10193541(PQKB)10317673(MiAaPQ)EBC243285(Au-PeEL)EBL243285(CaPaEBR)ebr10162669(CaONFJC)MIL30247(OCoLC)187935331(EXLCZ)99100000000035985220180706d2005 uy 0engur|n|---|||||txtccrReshaping museum space architecture, design, exhibitions /edited by Suzanne MacLeodLondon ;New York :Routledge,2005.1 online resource (256 p.)Museum meaningsDescription based upon print version of record.0-415-34345-3 0-415-34344-5 Includes bibliographical references and index.Cover; Reshaping Museum Space: Architecture, Design, Exhibitions; Copyright; Contents; Figures; Notes on contributors; Acknowledgements; Introduction; Part IOn the nature ofmuseum space; 1 Rethinking museum architecture: Towards a site-specific history of production and use; 2Black box science in blackbox science centres; 3 Space and the machine: Adaptive museums, pervasive technology and the new gallery environment; 4 Creative space; Part IIArchitectural reshaping; 5From cultural institution tocultural consumer experience:Manchester Art GalleryExpansion Project6 Spatial culture, way-finding and the educational message: The impact of layout on the spatial, social and educational experiences of visitors to museums and galleries7 The Grande Galerie de l'Evolution: An alternative cognitive experience; 8Producing a public for art:Gallery space in thetwenty-first century; 9Towards a new museumarchitecture:Narrative and representation; Part IIIInside spaces; 10Building on Victorian ideas; 11Representing Enlightenmentspace; 12The studio in the gallery?; 13When worlds collide:The contemporary museumas art gallery14Constructing and communicatingequality:The social agency of museum spacePart IVCreative space; 15Threshold fear; 16From cathedral of cultureto anchor attractor; 17The vital museum; IndexReshaping Museum Space pulls together the views of an international group of museum professionals, architects, designers and academics highlights the complexity, significance and malleability of museum space, and provides reflections upon recent developments in museum architecture and exhibition design. Various chapters concentrate on the process of architectural and spatial reshaping, and the problems of navigating the often contradictory agendas and aspirations of the broad range of professionals and stakeholders involved in any new project.Contributors review receMuseum meanings.Museum architectureSpace (Architecture)Museum buildingsMuseum exhibitsMuseumsInformation technologyMuseumsTechnological innovationsCultural propertyProtectionMuseumsPhilosophyElectronic books.Museum spaceArchitectureMuseum architecture.Space (Architecture)Museum buildings.Museum exhibits.MuseumsInformation technology.MuseumsTechnological innovations.Cultural propertyProtection.MuseumsPhilosophy.727/.6Macleod Suzanne310051MiAaPQMiAaPQMiAaPQBOOK9910458002803321Reshaping museum space2212801UNINA05265nam 2200673Ia 450 991013995980332120170809171555.01-282-37960-797866123796040-470-74998-90-470-74999-7(CKB)1000000000822273(EBL)470612(OCoLC)535814139(SSID)ssj0000343672(PQKBManifestationID)11244859(PQKBTitleCode)TC0000343672(PQKBWorkID)10291606(PQKB)11321069(MiAaPQ)EBC470612(PPN)139874658(EXLCZ)99100000000082227320090625d2009 uy 0engur|n|---|||||txtccrThermal convection[electronic resource] patterns, evolution, and stability (historical background and current status) /Marcello LappaHoboken, N.J. Wiley20091 online resource (692 p.)Description based upon print version of record.0-470-69994-9 Includes bibliographical references and index.Thermal Convection; Contents; Preface; Acknowledgements; 1 Equations, General Concepts and Methods of Analysis; 1.1 Pattern Formation and Nonlinear Dynamics; 1.1.1 Some Fundamental Concepts: Pattern, Interrelation and Scale; 1.1.2 PDEs, Symmetry and Nonequilibrium Phenomena; 1.2 The Navier-Stokes Equations; 1.2.1 A Satisfying Microscopic Derivation of the Balance Equations; 1.2.2 A Statistical Mechanical Theory of Transport Processes; 1.2.3 The Continuity Equation; 1.2.4 The Momentum Equation; 1.2.5 The Total Energy Equation; 1.2.6 The Budget of Internal Energy; 1.2.7 Newtonian Fluids1.2.8 Some Considerations About the Dynamics of Vorticity1.2.9 Incompressible Formulation of the Balance Equations; 1.2.10 Nondimensional Form of the Equations for Thermal Problems; 1.3 Energy Equality and Dissipative Structures; 1.4 Flow Stability, Bifurcations and Transition to Chaos; 1.5 Linear Stability Analysis: Principles and Methods; 1.5.1 Conditional Stability and Infinitesimal Disturbances; 1.5.2 The Exponential Matrix and the Eigenvalue Problem; 1.5.3 Linearization of the Navier-Stokes Equations1.5.4 A Simple Example: The Stability of a Parallel Flow with an Inflectional Velocity Profile1.5.5 Weaknesses and Limits of the Linear Stability Approach; 1.6 Energy Stability Theory; 1.6.1 A Global Budget for the Generalized Disturbance Energy; 1.6.2 The Extremum Problem; 1.7 Numerical Integration of the Navier-Stokes Equations; 1.7.1 Vorticity Methods; 1.7.2 Primitive Variables Methods; 1.8 Some Universal Properties of Chaotic States; 1.8.1 Feigenbaum, Ruelle-Takens and Manneville-Pomeau Scenarios; 1.8.2 Phase Trajectories, Attractors and Strange Attractors1.8.3 The Lorenz Model and the Butterfly Effect1.8.4 A Possible Quantification of SIC: The Lyapunov Spectrum; 1.8.5 The Mandelbrot Set: The Ubiquitous Connection Between Chaos and Fractals; 1.9 The Maxwell Equations; 2 Classical Models, Characteristic Numbers and Scaling Arguments; 2.1 Buoyancy Convection and the Boussinesq Model; 2.2 Convection in Space; 2.2.1 A Definition of Microgravity; 2.2.2 Experiments in Space; 2.2.3 Surface Tension-driven Flows; 2.2.4 Acceleration Disturbances on Orbiting Platforms and Vibrational Flows; 2.3 Marangoni Flow2.3.1 The Genesis and Relevant Nondimensional Numbers2.3.2 Microzone Facilities and Microscale Experimentation; 2.3.3 A Paradigm Model: The Liquid Bridge; 2.4 Exact Solutions of the Navier-Stokes Equations for Thermal Problems; 2.4.1 Thermogravitational Convection: The Hadley Flow; 2.4.2 Marangoni Flow; 2.4.3 Hybrid States; 2.4.4 General Properties; 2.4.5 The Infinitely Long Liquid Bridge; 2.4.6 Inclined Systems; 2.5 Conductive, Transition and Boundary-layer Regimes; 3 Examples of Thermal Fluid Convection and Pattern Formation in Nature and Technology3.1 Technological Processes: Small-scale Laboratory and Industrial SetupsThermal Convection - Patterns, Stages of Evolution and Stability Behavior provides the reader with an ensemble picture of the subject, illustrating the state-of-the-art and providing the researchers from universities and industry with a basis on which they are able to estimate the possible impact of a variety of parameters. Unlike earlier books on the subject, the heavy mathematical background underlying and governing the behaviors illustrated in the text are kept to a minimum. The text clarifies some still unresolved controversies pertaining to the physical nature of the dominatinThermal conductivityDensity currentsViscous flowFluid dynamicsThermal conductivity.Density currents.Viscous flow.Fluid dynamics.541.36620.11296Lappa Marcello964709MiAaPQMiAaPQMiAaPQBOOK9910139959803321Thermal convection2288639UNINA