An examination of the ways that digital and networked technologies have fundamentally changed research practices in disciplines from astronomy to literary analysis. In Knowledge Machines, Eric Meyer and Ralph Schroeder argue that digital technologies have fundamentally changed research practices in the sciences, social sciences, and humanities. Meyer and Schroeder show that digital tools and data, used collectively and in distributed mode—which they term e-research—have transformed not just the consumption of knowledge but also the production of knowledge. Digital technologies for research are reshaping how knowledge advances in disciplines that range from physics to literary analysis. Meyer and Schroeder map the rise of digital research and offer case studies from many fields, including biomedicine, social science uses of the Web, astronomy, and large-scale textual analysis in the humanities. They consider such topics as the challenges of sharing research data and of big data approaches, disciplinary differences and new forms of interdisciplinary collaboration, the shifting boundaries between researchers and their publics, and the ways that digital tools promote openness in science. This book considers the transformations of research from a number of perspectives, drawing especially on the sociology of science and technology and social informatics. It shows that the use of digital tools and data is not just a technical issue; it affects research practices, collaboration models, publishing choices, and even the kinds of research and research questions scholars choose to pursue. Knowledge Machines examines the nature and implications of these transformations for scholarly research.
An examination of the ways that digital and networked technologies have fundamentally changed research practices in disciplines from astronomy to literary analysis. In Knowledge Machines, Eric Meyer and Ralph Schroeder argue that digital technologies have fundamentally changed research practices in the sciences, social sciences, and humanities. Meyer and Schroeder show that digital tools and data, used collectively and in distributed mode—which they term e-research—have transformed not just the consumption of knowledge but also the production of knowledge. Digital technologies for research are reshaping how knowledge advances in disciplines that range from physics to literary analysis. Meyer and Schroeder map the rise of digital research and offer case studies from many fields, including biomedicine, social science uses of the Web, astronomy, and large-scale textual analysis in the humanities. They consider such topics as the challenges of sharing research data and of big data approaches, disciplinary differences and new forms of interdisciplinary collaboration, the shifting boundaries between researchers and their publics, and the ways that digital tools promote openness in science. This book considers the transformations of research from a number of perspectives, drawing especially on the sociology of science and technology and social informatics. It shows that the use of digital tools and data is not just a technical issue; it affects research practices, collaboration models, publishing choices, and even the kinds of research and research questions scholars choose to pursue. Knowledge Machines examines the nature and implications of these transformations for scholarly research.
This is a new edition of the first comprehensive text to show how the advances in molecular and cellular biology and in the basic neurosciences have brought the revolution in molecular medicine to the field of psychiatry. The book begins with a review of basic neuroscience and methods for studying neurobiology in human patients then proceeds to discussions of all major psychiatric syndromes with respect to knowledge of their etiology, pathophysiology, and treatment. Emphasis is placed on synthesizing information across numerous levels of analysis, including molecular biology and genetics, cellular physiology, neuroanatomy, neuropharmacology, and behavior, and in translating information from the basic laboratory to the clinical laboratory and finally to clinical treatment. Editors Dennis Charney and Eric Nestle, along with their six section editors and over 150 contributors, have revised and updated all 80 chapters from the previous edition and have added new chapters on topics relating to, for example, genetics, experimental therapeutics, and late-life mood disorders. Both a textbook and a reference book, Neurobiology of Mental Illness is intended for psychiatrists, neuroscientists, and upper level students.
This personal and professional memoir recounts the author’s formative years and the family influences that propelled him forward. The experience of anti-Semitism in grammar school and college played a major role. The centrality of music and family were especially influential. His partnership with Carol Meyers allowed him to have a successful career in academic archaeology and in teaching at Duke University. Other endeavors, however, kept him grounded and focused on everyday matters: singing, golf, social activism, teaching, and writing. But it was teaching most of all that imbued his life with special meaning as both student and teacher confronted the riches of the past in a search for a better future.
Mucosal Health in Aquaculture is an essential reference on mucosal health for the diverse aquaculture community. Rich in explanatory figures and schematics, the book includes important concepts such as structural and cellular composition of mucosal surfaces in fish and shellfish, known functional roles of molecular and cellular actors during pathogen invasion, impacts of nutrition on the mucosal barriers, impacts of chemical treatments on mucosal surfaces, mucosal vaccines and vaccination strategies, and more. The health of cultured aquaculture species is critical in establishing the sustainable growth of the aquaculture industry worldwide, and mucosal health is of particular interest to those working in aquaculture because mucosal surfaces (skin, gill, intestine, reproductive tissues) constitute the first line of defense against pathogen invasion. Mucosal Health in Aquaculture captures the latest research on mucosal barriers in aquaculture species and their impacts on nutrition and immunity to ensure sustainable aquaculture development. Includes research case studies to exhibit the importance of various integrated approaches to mucosal health Examines the latest scientific methods and technologies to maximize efficiencies for healthy fish production for farming Brings together the latest knowledge and research on mucosal barriers and mechanisms from world-wide experts in mucosal health Utilizes detailed diagrams and figures to enhance comprehension
In modern life, technology is everywhere. Yet as a concept, technology is a mess. In popular discourse, technology is little more than the latest digital innovations. Scholars do little better, offering up competing definitions that include everything from steelmaking to singing. In Technology: Critical History of a Concept, Eric Schatzberg explains why technology is so difficult to define by examining its three thousand year history, one shaped by persistent tensions between scholars and technical practitioners. Since the time of the ancient Greeks, scholars have tended to hold technicians in low esteem, defining technical practices as mere means toward ends defined by others. Technicians, in contrast, have repeatedly pushed back against this characterization, insisting on the dignity, creativity, and cultural worth of their work. The tension between scholars and technicians continued from Aristotle through Francis Bacon and into the nineteenth century. It was only in the twentieth century that modern meanings of technology arose: technology as the industrial arts, technology as applied science, and technology as technique. Schatzberg traces these three meanings to the present day, when discourse about technology has become pervasive, but confusion among the three principal meanings of technology remains common. He shows that only through a humanistic concept of technology can we understand the complex human choices embedded in our modern world.
I'll talk to anybody, a priest, a bank manager, a gangster, the devil himself, if I can get the information I need. This is a war." -- Lt. Commander Charles Radcliffe Haffenden, Naval Intelligence Unit, B-3 In late 1982, a spike in terrorism has the Reagan Administration considering covert action to neutralize the menace before it reaches the United States. There are big risks to waging a secret war against America's enemies---but there is one little-known precedent. Forty years earlier, German U-boats had been prowling the Atlantic, sinking hundreds of U.S. ships along the east coast, including the largest cruise ship in the world, Normandie, destroyed at a Manhattan pier after Pearl Harbor. Nazi agents even landed on Long Island with explosives and maps of railways, bridges, and defense plants. Desperate to secure the coast, the Navy turned to Meyer Lansky, the Jewish Mob boss. A newly naturalized American whose fellow Eastern European Jews were being annihilated by Hitler, Lansky headed an unlikely fellowship of mobsters Lucky Luciano, Bugsy Siegel, Frank Costello, and naval intelligence officers. Young Reagan White House aide Jonah Eastman, grandson of Atlantic City gangster Mickey Price, is approached by the president's top advisor with an assignment: Discreetly interview his grandfather's old friend Lansky about his wartime activities. There just might be something to learn from that secret operation. The notoriously tight-lipped gangster, dying of cancer, is finally ready to talk. Jonah gets a riveting---and darkly comic---history lesson. The Mob caught Nazi agents, planted propaganda with the help of columnist Walter Winchell, and found Mafia spies to plot the invasion of Sicily, where General Patton was poised to strike at the soft underbelly of the Axis. Lansky's men stopped at nothing to sabotage Hitler's push toward American shores. Based on real events, The Devil Himself is a high-energy novel of military espionage and Mafia justice.
From new research and equipment to new procedures, applications, and approaches, the field of interventional cardiology is one of the fastest-changing areas in medicine. Increasing data and recent technological advances have resulted in exciting changes – and an even greater need for cutting-edge, authoritative guidance on current practice. Textbook of Interventional Cardiology, 8th Edition, covers the theories, trends, and applications of diagnostic and interventional cardiology that cardiologists, cardiac surgeons, vascular surgeons, referring physicians, and advanced practitioners need to know. Focuses on the latest treatment protocols for managing patients at every level of complexity. Includes all-new chapters on Coronary Stenting, Diagnosis and Treatment of Coronary Microvascular Disease, Percutaneous Transcatheter Valve in Valve Implantation, and Percutaneous Tricuspid Valve Repair. Features hundreds of new illustrations, tables, and boxes for visual clarity and quick reference. Offers expanded coverage of transcatheter aortic valve interventions with extensive updates on practice implications. Discusses hot topics such new atherectomy devices, percutaneous mitral valve replacement, and percutaneous treatment of paravalvular leak. Provides the unique insights of expert leaders in the field who have pioneered today’s innovative devices and techniques and lend their own analysis of practical, evidence-based clinical applications. Presents the most recent data on how genomics and genetics impact interventional cardiology. Provides an in-depth understanding of cardiology, making it well suited for cardiology and interventional cardiology exam preparation.
An extraordinary new feature in Microsoft Excel 5 called Visual Basic for Applications (VBA) makes it easy for anyone with an understanding of VBA to build powerful business solutions with the Microsoft Excel engine. This insider's guide introduces VBA and Microsoft Excel 5 as a full-fledged development environment and shows the best methods for building quality data access and decison-making tools.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.