The literature on the relationship between religion and health is vast, but it is in a state of disarray. One empirical study has been piled upon another while little effort has been made to integrate them into a more tightly knit theoretical whole. This book was designed to address this problem. It is the product of forty years of empirical research, hundreds of peer-reviewed publications, and countless hours of deep reflection. This volume contributes to the literature in three ways: (1) a unique approach to theory construction and model development is presented that is designed to produce a conceptual scheme that is evidence based and empirically verifiable; (2) a new construct - communities of faith - that has largely been overlooked in empirical studies on religion is introduced; and (3) the need is highlighted for a no-holds barred discussion of how to practice one's research craft"--
The literature on the relationship between religion and health is vast, but it is in a state of disarray. One empirical study has been piled upon another while little effort has been made to integrate them into a more tightly knit theoretical whole. This book was designed to address this problem. It is the product of forty years of empirical research, hundreds of peer-reviewed publications, and countless hours of deep reflection. This volume contributes to the literature in three ways: (1) a unique approach to theory construction and model development is presented that is designed to produce a conceptual scheme that is evidence based and empirically verifiable; (2) a new construct - communities of faith - that has largely been overlooked in empirical studies on religion is introduced; and (3) the need is highlighted for a no-holds barred discussion of how to practice one's research craft"--
Science and technology are responsible for almost every advance in our modern quality of life. Yet science isn't just about laboratories, telescopes and particle accelerators. Public policy exerts a huge impact on how the scientific community conducts its work. Beyond Sputnik is a comprehensive survey of the field for use as an introductory textbook in courses and a reference guide for legislators, scientists, journalists, and advocates seeking to understand the science policy-making process. Detailed case studies---on topics from cloning and stem cell research to homeland security and science education---offer readers the opportunity to study real instances of policymaking at work. Authors and experts Homer A. Neal, Tobin L. Smith, and Jennifer B. McCormick propose practical ways to implement sound public policy in science and technology and highlight how these policies will guide the results of scientific discovery for years to come. Homer A. Neal is the Samuel A. Goudsmit Distinguished University Professor of Physics, Interim President Emeritus, and Vice President for Research Emeritus at the University of Michigan, and is a former member of the U.S. National Science Board. Tobin L. Smith is Associate Vice President for Federal Relations at the Association of American Universities. He was formerly Assistant Director of the University of Michigan and MIT Washington, DC, offices. Jennifer B. McCormick is an Assistant Professor of Biomedical Ethics in the Division of General Internal Medicine at the Mayo College of Medicine in Rochester, Minnesota, and is the Associate Director of the Research Ethics Resource, part of the Mayo Clinic's NIH Clinical Translational Science Award research programs. GO BEYOND SPUTNIK ONLINE--Visit www.science-policy.net for the latest news, teaching resources, learning guides, and internship opportunities in the 21st-Century field of science policy.
Designed to provide a comprehensive, step-by-step approach to organic process research and development in the pharmaceutical, fine chemical, and agricultural chemical industries, this book describes the steps taken, following synthesis and evaluation, to bring key compounds to market in a cost-effective manner. It describes hands-on, step-by-step, approaches to solving process development problems, including route, reagent, and solvent selection; optimising catalytic reactions; chiral syntheses; and "green chemistry." Second Edition highlights:• Reflects the current thinking in chemical process R&D for small molecules• Retains similar structure and orientation to the first edition. • Contains approx. 85% new material• Primarily new examples (work-up and prospective considerations for pilot plant and manufacturing scale-up)• Some new/expanded topics (e.g. green chemistry, genotoxins, enzymatic processes)• Replaces the first edition, although the first edition contains useful older examples that readers may refer to Provides insights into generating rugged, practical, cost-effective processes for the chemical preparation of "small molecules" Breaks down process optimization into route, reagent and solvent selection, development of reaction conditions, workup, crystallizations and more Presents guidelines for implementing and troubleshooting processes
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