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200 10$aVibrant architecture $ematter as a codesigner of living structures /$fRachel Armstrong ; managing editor, Monika Michalowicz ; associate editor, Davina Jackson
210  1$a[Hawthorne, New York] :$cDe Gruyter Open,$d2015.
210  4$d©2015
215   $a1 online resource (384 pages) $ccolor illustrations, photographs
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a3-11-040372-2 
320   $aIncludes bibliographical references and index.
327   $tFront matter --$tContents --$tPreface --$tAcknowledgements --$t1 Introduction --$t2 Definitions --$t3 Literature Survey --$t4 Method --$t5 Vibrant Matter in Practice --$t6 Dynamic Droplets --$t7 'A Short Story of a Short Life' --$t8 'Hylozoic Ground' --$t9 'Biolime: Mock Rock' --$t10 Vibrant Venice: Designing with Vibrant Matter --$t11 'Post-natural Venice' --$t12 Vibrant Cities --$t13 'Japan: 2060' --$t14 Manifesto For Vibrant Architecture --$t15 'The Greatest Alluvian Poet That Ever Lived' --$t16 Conclusion --$tReferences --$tList of Figures --$tList of Movies --$tList of Tables --$tIndex
330   $aThis book sets out the conditions under which the need for a new approach to the production of architecture in the twenty-first century is established, where our homes and cities are facing increasing pressures from environmental challenges that are compromising our lives and well being. Vibrant architecture embodies a new kind of architectural design practice that explores how lively materials, or 'vibrant matter', may be incorporated into our buildings to confer on them some of the properties of living things, such as movement, growth, sensitivity and self-repair. The theoretical and practical implications of how this may occur are explored through the application of a new group of materials. Characteristically, these substances possess some of the properties of living systems but may not have the full status of being truly alive. They include forms of chemical artificial life such as 'dynamic droplets' or synthetically produced soils. As complex systems, they are able to communicate directly with the natural world using a shared language of chemistry and so, negotiate their continued survival in a restless world. Vibrant architecture may create new opportunities for architectural design practice that venture beyond top-down form-finding programs, by enabling architects to co-design in partnership with human and nonhuman collectives, which result from the production of post natural landscapes. Ultimately, vibrant architecture may operate as an ecological platform for human development that augments the liveliness of our planet, rather than diminishes it.
606   $aArchitecture$xPhilosophy
606   $aSustainable architecture
610   $aVibrant architecture, living materials, ecological living technology, dynamic droplets, sustainability.
615  0$aArchitecture$xPhilosophy.
615  0$aSustainable architecture.
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702   $aJackson$b Davina
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200 10$aAtomabsorptionsspektroskopie /$fBernhard Welz, Michael Sperling
205   $a4., neubearbeitete Aufl.
210   $aWeinheim [Germany] $cWiley-VCH$d1997
215   $a1 online resource (1024 p.)
300   $aDescription based upon print version of record.
311 08$a9783527283057 
311 08$a3527283056 
320   $aIncludes bibliographical references and index.
330   $aDer breite Einsatz der Atomabsorptionsspektrometrie wird in dem grundlegend neubearbeiteten Standardwerk anhand zahlreicher Anwendungsgebiete dargestellt. Die Beschreibung der unterschiedlichen AAS-Techniken im Vergleich ermo?glicht dem Anwender, die fu?r ihn jeweils beste Lo?sung herauszufinden.Bernhard Welz und Michael Sperling ist es gelungen, eine gute Balance zwischen theoretischen Grundlagen und praktischen Anwendungen zu halten. Das neu aufgenommene Kapitel 'Physikalische Grundlagen' macht dem Anwender zusammenfassend die grundlegenden Aspekte der AAS versta?ndlich. Im Unterschied z
606   $aAtomic absorption spectroscopy
615  0$aAtomic absorption spectroscopy.
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