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200 10$aWoodhouse 1642$b[electronic resource] $ea new almanack and prognostication for the yeare of our Lord God 1642 : being the second after leap-yeere, containing sundry rules, notes, and directions, necessary for most sorts of men, serving indifferently for all this kingdome of Great Britain, but more especially for the meridian of the ancient city of Chichester and the southerne parts /$fmade and collected by John Woodhouse ..
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300   $aReproduction of original in the Bodleian Library.
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606   $aAstrology$vEarly works to 1800
606   $aEphemerides
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181   $ctxt
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200 00$aDevelopments in surface contamination and cleaning $efundamentals and applied aspects /$fedited by Rajiv Kohli and K.L. Mittal
210   $aNorwich, NY, U.S.A. $cW. Andrew Pub.$dc2008
215   $a1 online resource (1209 p.)
300   $aDescription based upon print version of record.
311   $a0-08-094747-6 
311   $a0-8155-1555-3 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Developments in Surface Contamination and Cleaning: Fundamentals and Applied Aspects; Copyright Page; Contents; Introduction; PART I: FUNDAMENTALS; Chapter 1. The Physical Nature of Very, Very Small Particles and its Impact on Their Behavior; 1.1 Introduction; 1.2 The Spectrum of Aerosol Particle Sizes; 1.3 Atoms and Molecules-Concepts and Dimensions; 1.4 The Model of a Gas; 1.5 Particles and Gas Molecules; 1.6 Particle Interactions; 1.7 Nanoparticles as Molecular Clusters; 1.8 An Interaction Model for Nanometer-Sized Particles; 1.9 Concluding Remarks; Acknowledgements
327   $aReferencesChapter 2. Elucidating the Fundamental Interactions of Very Small Particles: Ultrafast Science; 2.1 Introduction; 2.2 Techniques for the Generation of Ultrashort Pulses; 2.3 Dynamics of Atoms and Molecules in Strong Fields; 2.4 Bond-breaking in Single Molecules; 2.5 Controlling Molecular Populations and Chemical Reactions by Ultrafast Pulses; 2.6 Polyatomic Molecules and Nonadiabatic Processes; 2.7 Recent Results in Ultrafast Crystallography: UED and Time-resolved X-rays; 2.8 New Nonlinear Optical Techniques for Probing Surfaces: Surface Second-harmonic and Sum-frequency Generation
327   $a2.9 SummaryReferences; Chapter 3. Transport and Deposition of Aerosol Particles; 3.1 Introduction; 3.2 Noncontinuum Considerations; 3.3 Lagrangian Particle Equation of Motion; 3.4 Inertial Effects; 3.5 Drift Velocity; 3.6 Eulerian Formulation; 3.7 Particle Transport and Deposition in a Parallel Plate Reactor; 3.8 Inertia-Enhanced Deposition; 3.9 Chapter Summary and Practical Guidelines; References; Chapter 4. Relevance of Particle Transport in Surface Deposition and Cleaning; 4.1 Introduction; 4.2 Particle-solid Surface Interactions; 4.3 Dry Deposition
327   $a4.4 Thermophoresis and Its Relevance in Surface Cleaning4.5 Electrostatic Force and Its Relevance in Surface Cleaning; 4.6 Dielectrophoresis and Its Relevance in Surface Cleaning; 4.7 Abrasive Erosion and Its Relevance in Surface Cleaning; 4.8 Summary; References; Chapter 5. Tribological Implication of Particles; 5.1 Introduction; 5.2 The Micro-Site for Generation of Wear Particles; 5.3 Wear Modes and Particles; 5.4 Wear Rate and Number of Generated Wear Particles; 5.5 The Size Distribution of Wear Particles; 5.6 Concluding Remarks; Acknowledgement; References
327   $aChapter 6. Airborne Molecular Contamination: Contamination on Substrates and the Environment in Semiconductors and Other Industries6.1 Introduction; 6.2 Definitions, Types and Sources of AMCs; 6.3 Analysis Methods; 6.4 Nature of Airborne Molecular Contamination and Its Effects; 6.5 Examples of Application of Knowledge and Technology; 6.6 Future Directions; 6.7 Summary of the Chapter; Acknowledgements; References; Chapter 7. Aspects of Particle Adhesion and Removal; 7.1 Introduction; 7.2 Interactions Giving Rise to Particle Adhesion; 7.3 Mechanics of Particle Adhesion
327   $a7.4 Factors Affecting Particle Adhesion
330   $aSurface contamination is of cardinal importance in a host of technologies and industries, ranging from microelectronics to optics to automotive to biomedical. Thus, the need to understand the causes of surface contamination and their removal is very patent. Generally speaking, there are two broad categories of surface contaminants: film-type and particulates. In the world of shrinking dimensions, such as the ever-decreasing size of microelectronic devices, there is an intensified need to understand the behavior of nanoscale particles and to devise ways to remove them to an acceptable level. Pa
606   $aSurfaces (Technology)$xInspection
606   $aSurface contamination$xPrevention
606   $aParticles$xMeasurement
606   $aCleaning
606   $aCoatings
606   $aDust control
615  0$aSurfaces (Technology)$xInspection.
615  0$aSurface contamination$xPrevention.
615  0$aParticles$xMeasurement.
615  0$aCleaning.
615  0$aCoatings.
615  0$aDust control.
676   $a620/.44
701   $aKohli$b Rajiv$f1947-$0312362
701   $aMittal$b K. L.$f1945-$0748276
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906   $aBOOK
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996   $aDevelopments in surface contamination and cleaning$94389126
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