Conventional wisdom has it that science is boring. “The Science Files,” an hourly radio call-in talk show about science, is anything but boring, and certainly none of the listeners, emailers or tweeters who participate in the call-in radio talk show think science is boring either. Richard Zurawski has been hosting “The Science Files” for eight years and has fielded literally thousands of questions. This book, The Science Files, is about the questions that listeners have been asking about science and the way the world, nature and the universe works. Compiled by Zurawski, the questions and answers in this book are lively, engaging and interesting discussions about a wide range of topics. Present throughout is Zurawski’s passion for learning and his genuine fascination with the natural world. Furthermore, The Science Files is a dialogue that encourages readers and participants alike to continue to learn and to ask questions.
We have all, at some point, seen science in action on television. Whether it was a show about disasters or weather, nature or the universe, a science commentator, even a crime show depicting forensic evidence — we have all gleaned tidbits of scientific information while being entertained by our televisions. Or have we? From science channels and documentaries to fictional and children’s programming, television brings a myriad of scientific discoveries and theories into the homes of people around the world. But how accurately do these programs represent science? In Media Mediocrity, television producer and broadcaster Richard Zurawski argues that the science we learn on television is inaccurate, misleading and sometimes even dangerous. Dealing with issues such as tobacco consumption, global warming and Intelligent Design — and a host of pseudoscientific pursuits like UFOs, ghosts and the afterlife, Media Mediocrity examines how television producers’ pursuit of ratings and profit trump any desire to provide the audience with an accurate knowledge of science — and argues that there are real consequences for this lack of knowledge. Four out of five viewers gather the bulk of their scientific knowledge from television, making television an important intermediary between society and its understanding of science. If television gives us misleading — or blatantly false — scientific information, how can we hope to make informed decisions about scientific issues? Equally importantly, who is it that is feeding us this false science? And what do they gain from doing so? If you think your TV has made you an expert, then read this book — and think again.
If there exists a single term that summarizes the key to success in modern industrial automation, the obvious choice would be integration. Integration is critical to aligning all levels of an industrial enterprise and to optimizing each stratum in the hierarchy. While many books focus on the technological components of enterprise information systems, Integration Technologies for Industrial Automated Systems is the first book to present a comprehensive picture of the technologies, methodologies, and knowledge used to integrate seamlessly the various technologies underlying modern industrial automation and information systems. In chapters drawn from two of Zurawski's popular works, The Industrial Communication Technology Handbook and The Industrial Information Technology Handbook, this practical guide offers tutorials, surveys, and technology overviews contributed by experts from leading industrial and research institutions from around the world. The book is organized into sections for cohesive and comprehensive treatment. It examines e-technologies, software and IT technologies, communication network-based technologies, agent-based technologies, and security in detail as well as their role in the integration of industrial automated systems. For each of these areas, the contributors discuss emerging trends, novel solutions, and relevant standards. Charting the course toward more responsive and agile enterprise, Integration Technologies for Industrial Automated Systems gives you the tools to make better decisions and develop more integrated systems.
Conventional wisdom has it that science is boring. “The Science Files,” an hourly radio call-in talk show about science, is anything but boring, and certainly none of the listeners, emailers or tweeters who participate in the call-in radio talk show think science is boring either. Richard Zurawski has been hosting “The Science Files” for eight years and has fielded literally thousands of questions. This book, The Science Files, is about the questions that listeners have been asking about science and the way the world, nature and the universe works. Compiled by Zurawski, the questions and answers in this book are lively, engaging and interesting discussions about a wide range of topics. Present throughout is Zurawski’s passion for learning and his genuine fascination with the natural world. Furthermore, The Science Files is a dialogue that encourages readers and participants alike to continue to learn and to ask questions.
If there exists a single term that summarizes the key to success in modern industrial automation, the obvious choice would be integration. Integration is critical to aligning all levels of an industrial enterprise and to optimizing each stratum in the hierarchy. While many books focus on the technological components of enterprise information systems, Integration Technologies for Industrial Automated Systems is the first book to present a comprehensive picture of the technologies, methodologies, and knowledge used to integrate seamlessly the various technologies underlying modern industrial automation and information systems. In chapters drawn from two of Zurawski's popular works, The Industrial Communication Technology Handbook and The Industrial Information Technology Handbook, this practical guide offers tutorials, surveys, and technology overviews contributed by experts from leading industrial and research institutions from around the world. The book is organized into sections for cohesive and comprehensive treatment. It examines e-technologies, software and IT technologies, communication network-based technologies, agent-based technologies, and security in detail as well as their role in the integration of industrial automated systems. For each of these areas, the contributors discuss emerging trends, novel solutions, and relevant standards. Charting the course toward more responsive and agile enterprise, Integration Technologies for Industrial Automated Systems gives you the tools to make better decisions and develop more integrated systems.
An indispensable tool for those working at the front lines of new drug development Written for busy professionals at the forefront of new drug development, Drug Delivery gets readers quickly up to speed on both the principles and latest applications in the increasingly important field of drug delivery. Recent developments in such areas as combinatorial chemistry, proteomics, and genomics have revolutionized researchers' ability to rapidly identify and synthesize new pharmacological compounds. However, delivery-related properties remain a significant reason for clinical trial failures. Bringing together contributions by leading international experts, Drug Delivery covers the entire field in a systematic but concise way. It begins with an in-depth review of key fundamentals, such as physiochemical and biological barriers; drug delivery pathways; metabolism; drug formulation; pharmacokinetic and pharmacodynamic issues; and more. The remainder of the book is devoted to the systematic examination-including overviews, timely examples, and extensive references-of a host of specific subjects, including: * Receptor-mediated drug delivery * Prodrug delivery approaches * Oral protein and peptide drug delivery * Gene therapy and gene delivery * Ultrasound-mediated drug delivery * Polycationic peptides and proteins in drug delivery * Pulmonary drug delivery * Antibody-directed drug delivery * Efflux transporters in drug excretion * Intellectual property issues in drug delivery
Chemoattractant Ligands and Their Receptors succinctly summarizes cutting-edge research in the important area of chemoattraction in immunology. It explains how chemoattractant molecules mobilize immune cells to ward off attack by invading pathogens, both at a molecular and at a cellular level. Written by acknowledged experts in the field, it contains detailed molecular and structural information on each of the major chemoattractants and their receptors. Its unique multidisciplinary approach encompasses biology, immunology, protein chemistry, and molecular biology. A time-saving reference for both researchers and students.
Contents: V. Zingel, C. Leschke and W. Schunack: Developments in research on histamine (H1) receptor agonists / P.D. Hoeprich: Antifungal chemotherapy / G. de Stevens: The diversity of heterocyclic compounds and their biological activities / R.M. Schultz: Newer antifolate compounds in cancer therapy / P.K. Mehrotra, S. Batra and A.P. Bhadun: Non-steroidal agents for regulation of the menstrual cycle / A.K. Saxena and M. Saxena: Developments in anti-convulsant drugs
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