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200 10$aCharacterization of powders and aerosols$b[electronic resource] /$fBrian H. Kaye
210   $aWeinheim ;$aNew York $cWiley-VCH$dc1999
215   $a1 online resource (326 p.)
300   $aDescription based upon print version of record.
311   $a3-527-28853-8 
320   $aIncludes bibliographical references and indexes.
327   $aCharacterization of Powders and Aerosols; Table of Contents; 1 Basic Concepts in Characterization Studies, Representative Samples and Calibration Standards; 1.1 Who Needs to Characterize Powders and Spray Systems?; 1.2 The Physical Significance of Size Measurements; 1.3 Standard Powders for Calibrating Powder Measurement Techniques; 1.4 Representative Samples; 1.5 Representative Samples from Suspensions and Aerosol Clouds; 1.6 Dispersing Powder Samples for Size Characterization Studies
327   $a2 Direct Measurement of Larger Fineparticles and the Use of Image Analysis Systems to Characterize Fineparticles2.1 Measurements on Larger Fineparticles; 2.2 Measuring the Shape Distribution of Fineparticles Using the Concept of Chunkiness; 2.3 Characterizing the Presence of Edges On a Fineparticle Profile; 2.4 Geometric Signature Waveforms for Describing the Shape of Fineparticles; 2.5 Using Automated Image Analysis Systems to Size Fineparticle Populations; 2.6 Fractal Characterization of Rugged Boundaries; 2.7 Stratified Count Logic for Assessing an Array of Fineparticle Profiles
327   $a2.8 Special Imaging Procedures for Studying Fineparticles3 Characterizing Powders Using Sieves; 3.1 Sieving Surfaces; 3.2 The Rate of Powder Passage Through a Sieve; 3.3 Sieving Machines; 3.4 Possible Future Developments in Sieving; 4 Size Distribution Characterization Using Sedimentation Methods; 4.1 Basic Considerations; 4.2 Size analysis Procedures Based on Incremental Sampling of an Initially Homogeneous Suspension; 4.3 Sedimentation Characterization Based on Cumulative Monitoring of Sediments from an Initially Homogeneous Suspension
327   $a4.4 Line Start Methods of Sedimentation Fineparticle Size Characterization4.5 Sedimentation Studies of Fineparticles Moving in a Centrifugal Force Field; 5 Characterizing Powders and Mists Using Elutriation; 5.1 Basic Principles of Elutriation; 6 Stream Methods for Characterizing Fineparticles; 6.1 Basic Concepts; 6.2 Resistazone Stream Counters; 6.3 Stream Counters Based on Accoustic Phenomena; 6.4 Stream Counters Using Optical Inspection Procedures; 6.5 Time-of-Flight Stream Counters; 7 Light Scattering Methods for Characterizing Fineparticles
327   $a7.1 The Basic Vocabulary and Concepts of Light Scattering7.2 Studies of the Light Scattering Properties of Individual Fineparticles; 7.3 Light Scattering Properties of Clouds and Suspensions of Fineparticles; 7.4 Diffractometers for Characterizing Particle Size Distributions of Fineparticles; 7.5 Measuring the Fractal Structure of Flocculated Suspensions and Aerosol Systems Using Light-Scattering Studies; 8 Doppler Based Methods for Characterizing Fineparticles; 8.1 Basic Concepts Used in Doppler Methods for Characterizing Fineparticles
327   $a8.2 Stream Counters Based on Doppler Shifted Laser Light
330   $aCharacterization of fine particles is a difficult task!A large number of industries deal with materials in powder form. The properties of these powders depend on their particle size, particle shape and size distributions, surface and porosity.What are the methods?What are the problems?What questions need answering?This new book covers the problems of sampling both powders and aerosols, and discusses calibration standards for different instruments. It takes into account fractionating methods for fine particles, e.g., sieving procedures, sedimentation methods, and
606   $aAerosols$xAnalysis
606   $aParticle size determination
606   $aPowders$xAnalysis
615  0$aAerosols$xAnalysis.
615  0$aParticle size determination.
615  0$aPowders$xAnalysis.
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200 10$aParchment, paper, pixels$b[electronic resource] $elaw and the technologies of communication /$fPeter M. Tiersma
210   $aChicago $cUniversity of Chicago Press$d2010
215   $a1 online resource (270 p.)
300   $aDescription based upon print version of record.
311   $a0-226-80306-6 
320   $aIncludes bibliographical references and index.
327   $tFront matter --$tContents --$tAcknowledgments --$t1. Introduction --$t2. Speech, Writing, and Text --$t3. Wills --$t4. Contracts --$t5. Statutes --$t6. Judicial Opinions and the Concept of Precedent --$t7. Conclusion --$tNotes --$tIndex
330   $aTechnological revolutions have had an unquestionable, if still debatable, impact on culture and society-perhaps none more so than the written word. In the legal realm, the rise of literacy and print culture made possible the governing of large empires, the memorializing of private legal transactions, and the broad distribution of judicial precedents and legislation. Yet each of these technologies has its shadow side: written or printed texts easily become static and the textual practices of the legal profession can frustrate ordinary citizens, who may be bound by documents whose implications they scarcely understand. Parchment, Paper, Pixels offers an engaging exploration of the impact of three technological revolutions on the law. Beginning with the invention of writing, continuing with the mass production of identical copies of legal texts brought about by the printing press, and ending with a discussion of computers and the Internet, Peter M. Tiersma traces the journey of contracts, wills, statutes, judicial opinions, and other legal texts through the past and into the future. Though the ultimate effects of modern technologies on our legal system remain to be seen, Parchment, Paper, Pixels offers readers an insightful guide as to how our shifting forms of technological literacy have shaped and continue to shape the practice of law today.
606   $aTechnology and law
606   $aCommunication in law
606   $aCommunication and technology
606   $aCommunication$xTechnological innovations
606   $aLaw$xTechnological innovations
606   $aLaw$xInformation technology
606   $aLegal documents
610   $alaw, legal, litigation, lawyer, technology, communication, academic, scholarly, research, technological, culture, cultural, society, literacy, print, judicial, printing press, professional, mass production, contract, will, statute, guide, college, textbook, school, information, speech, writing, text, precedent, courtroom, judge, jury.
615  0$aTechnology and law.
615  0$aCommunication in law.
615  0$aCommunication and technology.
615  0$aCommunication$xTechnological innovations.
615  0$aLaw$xTechnological innovations.
615  0$aLaw$xInformation technology.
615  0$aLegal documents.
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