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200 10$aMaterials and Fluids Under Low Gravity$b[electronic resource] $eProceedings of the IXth European Symposium on Gravity-Dependent Phenomena in Physical Sciences Held at Berlin, Germany, 2?5 May 1995 /$fedited by Lorenz Ratke, Hannes U. Walter, Berndt Feuerbacher
205   $a1st ed. 1996.
210  1$aBerlin, Heidelberg :$cSpringer Berlin Heidelberg :$cImprint: Springer,$d1996.
215   $a1 online resource (XVII, 428 p. 178 illus.) 
225 1 $aLecture Notes in Physics,$x0075-8450 ;$v464
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a3-540-60677-7 
327   $aNew critical phenomena observed under weightlessness -- Numerical solutions of thermoacoustic and buoyancy-driven transport in a near critical fluid -- Adsorption kinetics and exchange of matter at liquid interfaces and microgravity -- Critical depletion of pure fluids in colloidal solids: Results of experiments on EURECA and grand canonical Monte Carlo simulations -- Dendritic growth measurements in microgravity -- A study of morphological stability during directional solidification of a Sn?Bi alloy in microgravity -- Response of crystal growth experiments to time-dependent residual accelerations -- Growth of 20 mm diameter GaAs crystals by the floating zone technique during the D-2 Spacelab Mission -- Microstructure evolution in immiscible AlSiBi alloys under reduced gravity conditions -- Crystallization in solutions: Effects of micogravity conditions -- An investigation of the perfection of lysozyme protein crystals grown in microgravity and on earth -- Fluid-dynamic modelling of protein crystallyzers -- Plasma crystals -- Are liquids molten solids or condensed gases? -- Containerless processing in space: Recent results -- The effect of natural convection on the measurement of mass transport coefficients in the liquid state -- Proboscis container shapes for the USML-2 interface configuration experiment -- Response of a liquid bridge to an acceleration varying sinusoidally with time -- Nonuniform interfacial tension-driven fluid flows -- Pure thermocapillary convection in a multilayer system: First results from the IML-2 mission -- On vibrational convective instability of a horizontal binary mixture layer with Soret effect -- Thermocapillary convection in liquid bridges with a deformed free surface -- Onset of oscillatory Marangoni convection in a liquid bridge -- Convection visualization and temperature fluctuation measurement in a molten silicon column -- The micro wedge model: A physical description of nucleate boiling without external forces -- Theoretical models for boiling at microgravity -- Chemically driven convection in the Belousov-Zhabotinsky reaction -- Combustion processes under microgravity conditions -- Flat plate diffusion flames: Numerical simulation and experimental validation for different gravity levels -- High pressure droplet burning experiments in reduced gravity.
330   $aThis careful selection of papers gives the reader an overview of the main research topics investigated at the conference and recent progress in understanding the physical phenomena involved. These lectures should therefore be a prime source of information for the expert as well as for graduate students. They cover critical point phenomena and adsorption, solidification, crystallization, static fluids and thermophysical properties, fluid dynamics and combustion. The importance of gravity as an experimental parameter and a variable in a large diversity of physical phenomena and processes has been recognized for some 25 years. The growth of this field of physics can be gleamed from the great number of satellites, sounding rockets, terrestrial trop towers, etc., that exist.
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200 10$aMastering Revit architecture 2008$b[electronic resource] /$fTatjana Dzambazova, Greg Demchak, Eddy Krygiel
210   $aHoboken $cWiley$dc2008
215   $a1 online resource (715 p.)
300   $aIncludes index.
311   $a0-470-14483-1 
327   $aMastering Revit Architecture 2008; Acknowledgments; About the Authors; Contents at a Glance; Contents; Introduction; Who Should Read This Book; What You Will Learn; Chapter 1: Understanding BIM: From the Basics to Advanced Realities; The Advantages of Building Information Modeling; What to Expect from BIM; Where Can You Go From Here?; The Bottom Line; Chapter 2: Revit Fundamentals; Working with Revit Parametric Elements; The Revit User Interface; Using the Project Browser; The Bottom Line; Chapter 3: Know Your Editing Tools; Selecting, Changing, and Replacing Elements
327   $aEditing Elements Interactively Other Useful Tools; The Bottom Line; Chapter 4: Setting up your templates and Office Standards; Starting a Project with a Custom Template; Settings for Graphic Consistency; Creating Custom Annotation Tags; Creating Custom Title Blocks; Creating a Custom Title Block with the Family Editor; The Bottom Line; Chapter 5: Customizing System Families and Project Settings in Your Template; Wall Types; Floor and Roof Types; Ceiling Types; Door and Window Types; Stair Types; Types and Type Catalogs; Graphic Overrides of Host Objects with Complex Structure
327   $aAdditional Global Project SettingsThe Bottom Line; Chapter 6: Modeling Principles in Revit; Modeling with Revit; Principles of Modeling in Revit; Where Can You Go From Here?; The Bottom Line; Chapter 7: Concept Massing Studies; Massing Studies; The Bottom Line; Chapter 8: From Conceptual Mass to a Real Building; Conceptual Design and Early Studies; The Bottom Line; Chapter 9: Working with Design Options; Revit Design Options; Chapter 10: Creating Custom 3D Content; Modeling Parametric 3D Families; Choosing the Right Family Template; Types of Families
327   $aSmart Workflow: Nesting One Family into Another Parametric Arrays in the Family Editor; Encoding Design Rules; Building a Parametric 3D Family; The Bottom Line; Chapter 11: Extended Modeling Techniques; Basic Walls: Advanced Modeling Techniques; Curtain Walls: Advanced Design Techniques; Roofs; Roofs and Slabs: Advanced Shape Editing; Railings and Fences; The Bottom Line; Chapter 12: Presenting Your Design; Drawings with Shadows; Color-Coded Plans and Sections; Elevations That Convey Depth; Working with Perspective Views; Rendering; Creating Animated Walk throughs; Exporting to Other Formats
327   $aThe Bottom Line Chapter 13: Fine-Tuning Your Preliminary Design; Preliminary Design Tools; Calculating Areas; Schedules; Using Schedules for Preliminary Cost Estimates; The Bottom Line; Chapter 14: Evaluating Your Preliminary Design: Sustainability; Sustainability in Architecture; Preliminary Design Tools; Tracking Recycled Materials; Window Surface Percentage vs. Room Area; Energy Analysis; The Bottom Line; Chapter 15: Annotating Your Model; Annotating Your Views; Displaying Information about Rooms; Schedule Keys; Tags; Shared Parameters; Text and Keynotes; The Bottom Line
327   $aChapter 16: Developing the Design with Smart Workflows
330   $aRevit Architecture has revolutionized how architects design, develop, and deliver projects-and now you can join the revolution with this expert guide. Authored by a team of Revit aficionados and experts, this in-depth book uses clear explanations, detailed tutorials, and practical examples to show you how to best implement Revit in the real world. Starting with a focused look at the basics of Revit and Building Information Modeling (BIM), you'll move quickly into setting up and customizing your Revit tools, preparing your office/project templates and settings, creating your library of componen
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210  1$a[Washington, D.C.] :$cU.S. Dept. of State,$d[2012?]
215   $a1 online resource (11 unnumbered pages)
225 1 $aTreaties and other international acts series ;$v02-402
300   $aTitle from title screen (viewed on Feb. 14, 2012).
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