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135   $aurcn|||||||||
181   $ctxt
182   $cc
183   $acr
200 12$aA hacker manifesto /$fMcKenzie Wark
205   $a1st ed.
210   $aCambridge, MA $cHarvard University Press$d2004
215   $a1 online resource (ca. 192 p.)
300   $aBibliographic Level Mode of Issuance: Monograph
311 08$a9780674015432 
311 08$a0674015436 
327   $aAbstraction Class Education Hacking History Information Nature Production Property Representation Revolt State Subject Surplus Vector World Writings
330   $a'A Hacker Manifesto' deftly defines the fraught territory between the ever more strident demands by drug and media companies for protection of their patents and copyrights and the pervasive popular culture of file sharing and pirating.
330   $bA double is haunting the world--the double of abstraction, the virtual reality of information, programming or poetry, math or music, curves or colorings upon which the fortunes of states and armies, companies and communities now depend. The bold aim of this book is to make manifest the origins, purpose, and interests of the emerging class responsible for making this new world--for producing the new concepts, new perceptions, and new sensations out of the stuff of raw data. A Hacker Manifesto deftly defines the fraught territory between the ever more strident demands by drug and media companies for protection of their patents and copyrights and the pervasive popular culture of file sharing and pirating. This vexed ground, the realm of so-called "intellectual property," gives rise to a whole new kind of class conflict, one that pits the creators of information--the hacker class of researchers and authors, artists and biologists, chemists and musicians, philosophers and programmers--against a possessing class who would monopolize what the hacker produces. Drawing in equal measure on Guy Debord and Gilles Deleuze, A Hacker Manifesto offers a systematic restatement of Marxist thought for the age of cyberspace and globalization. In the widespread revolt against commodified information, McKenzie Wark sees a Utopian promise, beyond the property form, and a new progressive class, the hacker class, who voice a shared interest in a new information commons.
606   $aDigital divide
606   $aHackers
606   $aSocial conflict
606   $aIntellectual property
606   $aInformation technology$xSocial aspects
606   $aComputers and civilization
615  0$aDigital divide.
615  0$aHackers.
615  0$aSocial conflict.
615  0$aIntellectual property.
615  0$aInformation technology$xSocial aspects.
615  0$aComputers and civilization.
676   $a303.48/33
700   $aWark$b McKenzie$f1961-$0572284
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910971547903321
996   $aHacker Manifesto$91064574
997   $aUNINA

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100   $a20180305d2016uuuu  -u-         -
101 0 $aeng
200 10$aCatalytic kinetics $echemistry and engineering /$fDmitry Yu. Murzin and Tapio Salmi
205   $aSecond edition.
210   $aAmsterdam $cElsevier$d2016
215   $a1 online resource
320   $aIncludes bibliographical references and index.
327   $aMachine generated contents note:$g1.1.$tHistory --$g1.2.$tCatalysis --$g1.3.$tFormal Kinetics --$g1.4.$tAcquisition of Kinetic Data --$g1.5.$tKinetics and Thermodynamics --$g1.6.$tExamples and Exercises --$tReference --$g2.1.$tHomogeneous Catalysis --$g2.2.$tHeterogeneous Catalysis --$g2.3.$tOrganocatalysis --$g2.4.$tExamples and Exercises --$tReference --$g3.1.$tReaction Rate Theory --$g3.2.$tElementary Reactions in Solutions --$g3.3.$tReaction Mechanism --$g3.4.$tQuasi-equilibrium Approximation --$g3.5.$tRelationship Between Thermodynamics and Kinetics --$g3.6.$tTransition State Theory of Surface Reactions --$g3.7.$tRates of Reactions on Nonideal Surfaces --$g3.8.$tDeterministic and Stochastic Models --$g3.9.$tMicrokinetic Modeling --$g3.10.$tCompensation Effect --$g3.11.$tIsotope Effects --$g3.12.$tExamples and Exercises --$tReferences --$g4.1.$tSteady State Kinetics of Complex Reactions --$g4.2.$tBasic Routes of Complex Reactions --$g4.3.$tSingle-Route Steady-State Reaction --$g4.4.$tTopological Analysis of Complex Reactions --$g4.5.$tElectrical Analogy of Reaction Networks --$g4.6.$tThermodynamic Consistency of Rate Constants for Complex Networks --$g4.7.$tKinetic Aspects of Selectivity --$g4.8.$tParallel Reactions: Kinetic Coupling --$g4.9.$tReduction of Complexity --$g4.10.$tPolynomial Kinetics --$g4.11.$tExamples and Exercises --$tReferences --$g5.1.$tHomogeneous Acid-Base Catalysis --$g5.2.$tNucleophilic Catalysis --$g5.3.$tCatalysis by Metal Ions --$g5.4.$tCatalysis by Organometallic Complexes --$g5.5.$tOrganocatalysis --$g5.6.$tPolymerization Catalysis --$g5.7.$tExamples and Exercises --$tReferences --$g6.1.$tEnzymatic Catalysis --$g6.2.$tCooperative Kinetics --$g6.3.$tInhibition --$g6.4.$tEffects of pH --$g6.5.$tSingle Molecule Enzymology --$g6.6.$tEnantioselectivity in Enzyme Catalyzed Reactions --$g6.7.$tGeneralized Rate Laws for Enzymatic Reactions --$g6.8.$tHeterogeneous Systems/Immobilized Enzymes --$g6.9.$tExamples and Exercises --$tReferences --$g7.1.$tReactions on Ideal Surfaces --$g7.2.$tReactions on Nonideal Surfaces --$g7.3.$tSelectivity --$g7.4.$tPolyatomic Nature of Reactants and Coverage-Dependent Adsorption Mode --$g7.5.$tSolvent Effects --$g7.6.$tIonic Species --$g7.7.$tTransfer of Labeled Atoms in Heterogeneous Catalytic Reactions --$g7.8.$tElectrocatalytic Kinetics --$g7.9.$tPhotocatalytic Kinetics --$g7.10.$tNanokinetics --$g7.11.$tExamples and Exercises --$tReferences --$g8.1.$tGeneral --$g8.2.$tCombined Catalytic and Noncatalytic Reactions --$g8.3.$tMultiple Catalysts of the Same Type --$g8.4.$tMultiple Catalysts of Different Types --$g8.5.$tExamples and Exercises --$tReferences --$g9.1.$tTransient Kinetics --$g9.2.$tRelaxation Methods --$g9.3.$tTemperature-Programmed Desorption --$g9.4.$tOscillations --$g9.5.$tDynamic Catalyst Changes --$g9.6.$tExamples and Exercises --$tReferences --$g10.1.$tCatalytic Multi-Phase Systems --$g10.2.$tSimultaneous Reaction and Diffusion in Fluid Films and in Porous Materials --$g10.3.$tLiquid-Liquid Diffusion, Phase-Transfer Catalysis --$g10.4.$tCatalytic Two-Phase Systems --$g10.5.$tMass Transfer and Enzymatic Kinetics --$g10.6.$tExternal Mass Transfer --$g10.7.$tInternal Diffusion and Selectivity --$g10.8.$tInternal Diffusion and Deactivation --$g10.9.$tElucidation of the Impact of Mass Transfer --$g10.10.$tThree-Phase Systems --$g10.11.$tExamples and Exercises --$tReferences --$g11.1.$tBasic Principles --$g11.2.$tHeuristic Design of Experiments --$g11.3.$tParameter Estimation: Classical Methods --$g11.4.$tParameter Estimation: Regression --$g11.5.$tNumerical Strategies --$g11.6.$tAnalysis of Parameters --$g11.7.$tModel Discrimination --$g11.8.$tSoftware --$g11.9.$tCase Studies --$tReferences.
606   $aCatalysis
606   $aChemical kinetics
615  0$aCatalysis.
615  0$aChemical kinetics.
676   $a541/.395
700   $aMurzin$b Dmitry$f1963-$01709692
702   $aSalmi$b Tapio
906   $aBOOK
912   $a9911034968803321
996   $aCatalytic kinetics$94448615
997   $aUNINA