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200 10$aChildren and pollution$b[electronic resource] $ewhy scientists disagree /$fColleen F. Moore
210   $aOxford ;$aNew York $cOxford University Press$d2009
215   $a1 online resource (375 p.)
300   $aDescription based upon print version of record.
311   $a0-19-538666-3 
320   $aIncludes bibliographical references (p. 259-338) and index.
327   $aContents; Prologue; 1 Lead and the Roots of Environmental Controversies; 2 Mercury: Not Just a Fish Story; 3 PCBs: Another Global Pollutant; 4 Neurotoxins Influence Neurodevelopment: Organophosphorus and Carbamate Pesticides; 5 Noise: A Barrier to Children's Learning; 6 It Isn't Fair: Environmental Pollution Disasters and Community Relocations; 7 The Best Science, Values, and the Precautionary Principle to Protect Children; 8 Protect Your Family, Protect Our Planet; Afterword: A Few Remarks on Global Warming; Appendix: Understanding Two Important Statistical Concepts; Endnotes; References
327   $aIndex
330   $aHow does pollution impact our daily quality of life? What are the effects of pollution on children's development? Why do industry and environmental experts disagree about what levels of pollutants are safe? In this clearly written book, Moore traces the debates around five key pollutants---lead, mercury, noise, pesticides, and dioxins and PCBs---and provides an overview of the history of each pollutant, basic research findings, and the scientific and regulatory controversies surrounding it. Moore focuses, in particular, on the impact of these pollutants on children's psychological development-
606   $aPediatric toxicology
606   $aEnvironmental toxicology
606   $aPollution$xPsychological aspects
608   $aElectronic books.
615  0$aPediatric toxicology.
615  0$aEnvironmental toxicology.
615  0$aPollution$xPsychological aspects.
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200 00$aAdvances in nanotechnology$b[electronic resource] $hVolume 3 /$fZacharie Bartul and Jerome Trenor, editors
210   $aNew York $cNova Science Publishers$dc2010
215   $a1 online resource (356 p.)
225 0 $aAdvances in nanotechnolgy series ;$v3
300   $aDescription based upon print version of record.
311   $a1-61668-161-6 
320   $aIncludes bibliographical references and index.
327   $a""ADVANCES IN NANOTECHNOLOGY, VOLUME 3 ""; ""ADVANCES IN NANOTECHNOLOGY, VOLUME 3 ""; ""CONTENTS ""; ""PREFACE ""; ""CURRENT DIRECTIONS IN NANOMACHINING""; ""Abstract""; ""1. Nanomachining""; ""1.1. Basic Elements of Molecular Dynamics Modeling""; ""1.1.1. Material Representation and Microstructure""; ""1.1.2. Atomic Interaction""; ""1.1.2.1. Pair Potentials""; ""1.1.2.2. Many-Body Potentials""; ""1.1.3. Systems Dynamics and Numerical Description""; ""1.1.4. Boundary Conditions""; ""1.2. Design and Requirements for State-of-the-Art MD Cutting ProcessSimulations""
327   $a""1.3. Capabilities of MD for Nanoscale Material Removal Process Analysis""""1.3.1. Analysis of Microstructure and Deformation""; ""1.3.2. Obtaining Cutting Forces, Stress and Temperature""; ""1.4. Advances and Recent Developments in Material Removal ProcessSimulation""; ""1.4.1. Three-Dimensional Surface Machining Simulation""; ""2. Micromachining""; ""2.1.1. Definitions and Technological Possibilities""; ""3.1.2. Main Applications of Micromachining""; ""2.2. Microturning""; ""2.2.1. Characteristic Features and Applications""; ""2.2.2. Microturning Tools and Tooling Systems""
327   $a""2.2.3. Machine Tools for Microturning""""2.3 Microdrilling""; ""2.3.1. Characteristic Features and Applications""; ""2.3.2. Microdrills and Tooling Systems""; ""2.3.3. Machine Tools for Microdrilling""; ""2.4. Micromilling""; ""2.4.1. Characteristic Features and Applications""; ""2.4.2. Micromills and Tooling Systems""; ""2.4.3. Machine Tools for Micromilling""; ""2.5. Product Quality in Micromachining""; ""2.5.1. Quality Challenges in Micromachining""; ""2.5.2. Burr Formation in Micromachining Operations""; ""2.5.3. Surface Quality Inspection of Micromachining Products""
327   $a""3. Application of Micro and Nanomachining""""3.1. Typical Machining Methods""; ""3.1.1. Diamond Turning""; ""3.2. Applications in Optical Manufacturing""; ""3.2.1. Aspheric Lens""; ""3.2.2. Fresnel Lens""; ""3.2.3. Micro-structured Components""; ""3.3. Semiconductor and Electronic Applications""; ""3.3.1. Semiconductor Wafer Production""; ""3.3.2. LSI Substrate Planarization""; ""4. Conclusion""; ""Acknowledgements""; ""References""; ""BA(TI,ZR)O3 - FUNCTIONAL MATERIALS:FROM NANOPOWDERS TO BULK CERAMICS""; ""Abstract""; ""1. State of the Art for the BaTiO3-BaZrO3 System""
327   $a""2. Preparation and Characterization of Ba(Ti,Zr)O3Nanopowders: Influence of the Processing Methodon the Structural and Morphological Properties""""2.1. Synthesis""; ""2.2. Formation Mechanism""; ""2.3. Phase Composition and Structure""; ""2.4. Morphology""; ""3. Preparation and Characteristics of Ba(Ti,Zr)O3 Ceramics: Effectof Composition and Grain Size on the Functional Properties""; ""3.1. Ceramics from Powders Prepared by Classical Solid State Reaction""; ""3.1.1. Phase Composition and Microstructure""; ""3.1.2. Dielectric Properties""
327   $a""(a) The effect of frequency on the dielectric data for the BaTi0.9Zr0.1O3 ceramics sinteredat different temperatures (size effects)""
410  0$aAdvances in Nanotechnology
606   $aNanotechnology
606   $aHigh technology
615  0$aNanotechnology.
615  0$aHigh technology.
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