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200 12$aA history of economic thought$b[electronic resource] /$fWilliam J. Barber
205   $a1st Wesleyan ed.
210   $aMiddletown, Conn. $cWesleyan University Press$d2009
215   $a1 online resource (343 p.)
300   $aReprint. Originally published: Penguin Books Ltd., 1967.
311   $a0-8195-6938-0 
320   $aIncludes bibliographical references and indexes.
327   $apt. 1. Classical economics -- pt. 2. Marxian economics -- pt. 3. Neo-classical economics -- pt. 4. Keynesian economics.
330 8 $aStudy of the grand ideas in economics has a perpetual intellectual fascination in it's own right. It can also have practical relevance, as the global economic downturn that began in 2007 reminds us. For several decades, the economics establishment had been dismissive of Keynesianism, arguing that the world had moved beyond the "depression economics" with which it dealt. Keynesian economics, however, has now staged a comeback as governments attempt to formulate policy responses to the Great Recession of the first decade of the twenty-first century.
330   $aStudy of the grand ideas in economics has a perpetual intellectual fascination in it's own right. It can also have practical relevance, as the global economic downturn that began in 2007 reminds us. For several decades, the economics establishment had been dismissive of Keynesianism, arguing that the world had moved beyond the "depression economics" with which it dealt. Keynesian economics, however, has now staged a comeback as governments attempt to formulate policy responses to the Great Recession of the first decade of the twenty-first century.
606   $aEconomics$xHistory
608   $aElectronic books.
615  0$aEconomics$xHistory.
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100 1 $aMartinelli, Franco$d<1933- >$0298405
245 10$aStruttura di classe e selezione scolastica :$bl'influenza delle ideologie scolastiche e familiari sui ragazzi della scuola dell'obbligo /$cFranco Martinelli
260   $aNapoli :$bLiguori,$c1977
300   $a127 p. ;$c20 cm
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200 10$aChemical Complexity $eSelf-Organization Processes in Molecular Systems /$fby Alexander S. Mikhailov, Gerhard Ertl
205   $a1st ed. 2017.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2017.
215   $a1 online resource (209 pages)
225 1 $aThe Frontiers Collection,$x1612-3018
311 08$a3-319-57375-6 
320   $aIncludes bibliographical references at the end of each chapters.
327   $aSelf-organization vs. self-assembly -- Thermodynamics of open systems -- The Turing instability -- Waves in the heart -- The Belousov-Zhabotinsky reaction -- Surface catalysis -- Corrosion of steels -- Nonequilibrium soft matter -- Phase transitions in reactive systems -- Self-organization in biological cells -- Protein machines and molecular motors -- Active propulsion on microscales -- Oscillators and synchronization phenomena -- Chemical chaos -- Network problems -- Design and control of self-organizing systems -- Open problems and application perspectives.
330   $aThis book provides an outline of theoretical concepts and their experimental verification in studies of self-organization phenomena in chemical systems, as they emerged in the mid-20th century and have evolved since. Presenting essays on selected topics, it was prepared by authors who have made profound contributions to the field. Traditionally, physical chemistry has been concerned with interactions between atoms and molecules that produce a variety of equilibrium structures - or the 'dead' order - in a stationary state. But biological cells exhibit a different 'living' kind of order, prompting E. Schrödinger to pose his famous question ?What is life?? in 1943.  Through an unprecedented theoretical and experimental development, it was later revealed that biological self-organization phenomena are in complete agreement with the laws of physics, once they are applied to a special class of thermodynamically open systems and non-equilibrium states. This knowledge has in turn led to the design and synthesis of simple inorganic systems capable of self-organization effects. These artificial 'living organisms' are able to operate on macroscopic to microscopic scales, even down to single-molecule machines. In the future, such research could provide a basis for a technological breakthrough, comparable in its impact with the invention of lasers and semiconductors. Its results can be used to control natural chemical processes, and to design artificial complex chemical processes with various functionalities.  The book offers an extensive discussion of the history of research on complex chemical systems and its future prospects. Gerhard Ertl received the Nobel Prize in Chemistry in 2007 for his studies on heterogeneous catalysis and self-organization processes in surface chemical reactions.  He was the director of the Physical Chemistry department at the Fritz Haber Institute of the Max Planck Society in Berlin, where he is currently a Professor Emeritus. Prof. Alexander S. Mikhailov, of the same institute, is a theoretical physicist who has been working with G. Ertl for more than twenty years. He is the author of three monographs published by Springer and was awarded the International Solvay Chair in Chemistry in 2009. Together, the authors initiated and organized a series of international conferences on "Engineering of Chemical Complexity".
410  0$aThe Frontiers Collection,$x1612-3018
606   $aChemistry, Physical and theoretical
606   $aStatistical physics
606   $aComputational complexity
606   $aSystems biology
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606   $aMaterials?Surfaces
606   $aThin films
606   $aPhysical Chemistry$3https://scigraph.springernature.com/ontologies/product-market-codes/C21001
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615 14$aPhysical Chemistry.
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