Deeply researched, World as Laboratory tells a secret history that's not really a secret. The fruits of human engineering are all around us: advertising, polls, focus groups, the ubiquitous habit of "spin" practiced by marketers and politicians. What Rebecca Lemov cleverly traces for the first time is how the absurd, the practical, and the dangerous experiments of the human engineers of the first half of the twentieth century left their laboratories to become our day-to-day reality.
This highly original work presents laboratory science in a deliberately skeptical way: as an anthropological approach to the culture of the scientist. Drawing on recent work in literary criticism, the authors study how the social world of the laboratory produces papers and other "texts,"' and how the scientific vision of reality becomes that set of statements considered, for the time being, too expensive to change. The book is based on field work done by Bruno Latour in Roger Guillemin's laboratory at the Salk Institute and provides an important link between the sociology of modern sciences and laboratory studies in the history of science.
Laboratory Earth taps the relevant knowledge from physical, biological, and social sciences needed to study the planet holistically. This so-called Earth Systems Science fosters a new way to understand the Earth and our roles as inhabitants, with the purpose of building solutions to the bewildering global environment and overdevelopment.Educational, business, health, and governmental organizations often dissect the world into narrow but highly specialized disciplines—economics, ecology, cardiology, meteorology, glaciology, or political science, to name a few. But real world problems, like urban sprawl, public health, poverty, toxic waste, economic development, the ozone hole, or global warming, do not fit neatly into disciplinary boxes. However, author Stephen Schneider asserts that these contemporary issues must be viewed as systems of interconnected subelements. This is especially true for global environmental problems, since they arise from increasing numbers of people demanding higher standards of living and willing to use the cheapest available technologies to pursue these growth-oriented goals, even if the unintended byproducts include land degradation, toxic pollutants, species extinctions, or global climate change. To first understand and then solve such problems, we must learn to view the Earth and our socioeconomic engine as one integrated system.Schneider, who in the 1970s predicted global warming would become “demonstrable” by the turn of the century, chooses that debate to illustrate how this twenty-first century Earth Systems Science approach works, introducing us to the sharp controversies and highly visible debates among climatologists, ecologists, economists, industrialists, and political interests over the seriousness and solutions to the climate change crisis. He begins with a fascinating journey to the beginning of geologic time on Earth and traces from there the coevolution of climate and life over the next four billion years. Along the way we learn about the Gaia Hypothesis, the demise of the dinosaurs, and the likelihood of an impending ice age.Schneider traces our climatic history not only from the beginning and up to the twentieth century, but deep into the twenty-first as well. He depicts the next one hundred years as a potentially perilous period for climate and life—unless we citizens of Earth recognize and then work to control the unintended global scale experiment we are foisting on ourselves and all other life on “Laboratory Earth.” This “lab” is not built of glass, wires, and tubes, but of insects, soils, air, oceans, birds, trees, and people. While no honest scientist can claim to have clairvoyant vision into the twenty-first century, Schneider optimistically demonstrates that enough is already known to command our attention and to insure that the juggernaut of human impacts on Earth doesn't turn into a gamble we can't afford to lose.
The Radiation Laboratory in Berkeley, California, was the birthplace of particle accelerators, radioisotopes, and modern big science. This first volume of its history is a saga of physics and finance in the Great Depression, when a new kind of science was born. Here we learn how Ernest Lawrence used local and national technological, economic, and manpower resources to build the cyclotron, which enabled scientists to produce high-voltage particles without high voltages. The cyclotron brought Lawrence forcibly and permanently to the attention of leaders of international physics in Brussels at the Solvay Congress of 1933. Ever since, the Rad Lab has played a prominent part on the world stage. The book tells of the birth of nuclear chemistry and nuclear medicine in the Laboratory, the discoveries of new isotopes and the transuranic elements, the construction of the ultimate cyclotron, Lawrence's Nobel Prize, and the energy, enthusiasm, and enterprise of Laboratory staff. Two more volumes are planned to carry the story through the Second World War, the establishment of the system of national laboratories, and the loss of Berkeley's dominance of high-energy physics.
Published and distributed for the Vidal Sassoon International Center for the Study of Antisemitism During the sixty years between the founding of Bismarck’s German Empire and Hitler’s rise to power, German-speaking Jews left a profound mark on Central Europe and on twentieth-century culture as a whole. How would the modern world look today without Einstein, Freud, or Marx? Without Mahler, Schoenberg, Wittgenstein, or Kafka? Without a whole galaxy of other outstanding Jewish scientists, poets, playwrights, composers, critics, historians, sociologists, psychoanalysts, jurists, and philosophers? How was it possible that this vibrant period in Central European cultural history collapsed into the horror and mass murder of the Nazi Holocaust? Was there some connection between the dazzling achievements of these Jews and the ferocity of the German backlash? Robert S. Wistrich’s Laboratory for World Destruction is a bold and penetrating study of the fateful symbiosis between Germans and Jews in Central Europe, which culminated in the tragic denouement of the Holocaust. Wistrich shows that the seeds of the catastrophe were already sown in the Hapsburg Empire, which would become, in Karl Kraus’s words, “an experimental station in the destruction of the world.” Featured are incisive chapters on Freud, Herzl, Lueger, Kraus, Nordau, Nietzsche, and Hitler, along with a sweeping panorama of the golden age of Central European Jewry before the lights went out in Europe.
2018 marks the centenary not only of the Armistice but also of women gaining the vote in the United Kingdom. A Lab of One's Own commemorates both anniversaries by exploring how the War gave female scientists, doctors, and engineers unprecedented opportunities to undertake endeavors normally reserved for men.
The Cold War ended long ago, but the language of science and freedom continues to shape public debates over the relationship between science and politics in the United States. Scientists like to proclaim that science knows no borders. Scientific researchers follow the evidence where it leads, their conclusions free of prejudice or ideology. But is that really the case? In Freedom's Laboratory, Audra J. Wolfe shows how these ideas were tested to their limits in the high-stakes propaganda battles of the Cold War. Wolfe examines the role that scientists, in concert with administrators and policymakers, played in American cultural diplomacy after World War II. During this period, the engines of US propaganda promoted a vision of science that highlighted empiricism, objectivity, a commitment to pure research, and internationalism. Working (both overtly and covertly, wittingly and unwittingly) with governmental and private organizations, scientists attempted to decide what, exactly, they meant when they referred to "scientific freedom" or the "US ideology." More frequently, however, they defined American science merely as the opposite of Communist science. Uncovering many startling episodes of the close relationship between the US government and private scientific groups, Freedom's Laboratory is the first work to explore science's link to US propaganda and psychological warfare campaigns during the Cold War. Closing in the present day with a discussion of the 2017 March for Science and the prospects for science and science diplomacy in the Trump era, the book demonstrates the continued hold of Cold War thinking on ideas about science and politics in the United States.
A generously illustrated examination of the boom in luxurious, resort-style scientific laboratories and how this affects scientists' work. The past decade has seen an extraordinary laboratory-building boom. This new crop of laboratories features spectacular architecture and resort-like amenities. The buildings sprawl luxuriously on verdant campuses or sit sleekly in expensive urban neighborhoods. Designed to attract venture capital, generous philanthropy, and star scientists, these laboratories are meant to create the ideal conditions for scientific discovery. Yet there is little empirical evidence that shows if they do. Laboratory Lifestyles examines this new species of scientific laboratory from architectural, economic, social, and scientific perspectives. Generously illustrated with photographs of laboratories and scientists at work in them, the book investigates how “lifestyle science” affects actual science. Are scientists working when they stretch in a yoga class, play volleyball in the company tournament, chat in an on-site café, or show off their facilities to visiting pharmaceutical executives? The book describes, among other things, the role of beanbag chairs in the construction of science at Xerox PARC; the Southern California vibe of the RAND Corporation (Malibu), General Atomic (La Jolla), and Hughes Research Laboratories (Malibu); and Biosphere 2's “bionauts” as both scientists and scientific subjects; and interstellar laboratories. Laboratory Lifestyles (the title is an allusion to Bruno Latour and Steve Woolgar's influential Laboratory Life) documents a shift in what constitutes scientific practice; these laboratories and their lifestyles are as experimental as the science they cultivate. Contributors Kathleen Brandt, Russell Hughes, Tim Ivison, Sandra Kaji-O'Grady, Stuart W. Leslie, Brian Lonsway, Sean O'Halloran, Simon Sadler, Chris L. Smith, Nicole Sully, Ksenia Tatarchenko, William Taylor, Julia Tcharfas, Albena Yaneva, Stelios Zavos
Table of contents includes: Soap and Nicholas Leblanc, Color and William Henry Perkin, Sugar and Norbert Rillieux, Clean water and Edward Frankland, Fertilizer, poison gas, and Fritz Haber, Leaded gasoline, safe refrigeration and Thomas Midgley, Jr., Nylon and Wallace Hume Carothers, DDT and Paul Hermann Muller, Lead-free gasoline and Clair C. Patterson.
Achieving, maintaining and improving accuracy, timeliness and reliability are major challenges for health laboratories. Countries worldwide committed themselves to build national capacities for the detection of, and response to, public health events of international concern when they decided to engage in the International Health Regulations implementation process. Only sound management of quality in health laboratories will enable countries to produce test results that the international community will trust in cases of international emergency. This handbook was developed through collaboration between the WHO Lyon Office for National Epidemic Preparedness and Response, the United States of America Centers for Disease Control and Prevention (CDC) Division of Laboratory Systems, and the Clinical and Laboratory Standards Institute (CLSI). It is based on training sessions and modules provided by the CDC and WHO in more than 25 countries, and on guidelines for implementation of ISO 15189 in diagnostic laboratories, developed by CLSI. This handbook is intended to provide a comprehensive reference on Laboratory Quality Management System for all stakeholders in health laboratory processes, from management, to administration, to bench-work laboratorians. This handbook covers topics that are essential for quality management of a public health or clinical laboratory. They are based on both ISO 15189 and CLSI GP26-A3 documents. Each topic is discussed in a separate chapter. The chapters follow the framework developed by CLSI and are organized as the "12 Quality System Essentials".
