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Unrivalled in its coverage and unique in its hands-on approach, this guide to the design and construction of scientific apparatus is essential reading for every scientist and student of engineering, and physical, chemical, and biological sciences. Covering the physical principles governing the operation of the mechanical, optical and electronic parts of an instrument, new sections on detectors, low-temperature measurements, high-pressure apparatus, and updated engineering specifications, as well as 400 figures and tables, have been added to this edition. Data on the properties of materials and components used by manufacturers are included. Mechanical, optical, and electronic construction techniques carried out in the lab, as well as those let out to specialized shops, are also described. Step-by-step instruction supported by many detailed figures, is given for laboratory skills such as soldering electrical components, glassblowing, brazing, and polishing.
Examines the variety of instruments and equipment used in scientific research in fields such as chemistry, mechanics, meteorology, and electricity
With over 300 entries from the ancient abacus to X-ray diffraction, as represented by a ca. 1900 photo of an X- ray machine as well as the latest research into filmless x- ray systems, this tour of the history of scientific instruments in multiple disciplines provides context and a bibliography for each entry. Newer conceptions of "instrument" include organisms widely used in research: e.g. the mouse, drosophila, and E. coli. Bandw photographs and diagrams showcase more traditional instruments from The Science Museum, London, and the Smithsonian's National Museum of American History. Annotation copyrighted by Book News, Inc., Portland, OR
When science’s “black boxes” are pried open, its workings become accessible. Like time-travellers into history but grounded in today’s cultures, learners interact directly with authentic instruments and replicas. Chapters describe educational experiences sparked through collaborations interrelating museum, school and university.
This collection of essays discusses the marketing of scientific and medical instruments from the eighteenth century to the First World War. The evidence presented here is derived from sources as diverse as contemporary trade literature, through newspaper advertisements, to rarely-surviving inventories, and from the instruments themselves. The picture may not yet be complete, but it has been acknowledged that it is more complex than sketched out twenty-five or even fifty years ago. Here is a collection of case-studies from the United Kingdom, the Americas and Europe showing instruments moving from maker to market-place, and, to some extent, what happened next. Contributors are: Alexi Baker, Paolo Brenni, Laura Cházaro, Gloria Clifton, Peggy Aldrich Kidwell, Richard L. Kremer, A.D. Morrison-Low, Joshua Nall, Sara J. Schechner, and Liba Taub.
Open-Source Lab: How to Build Your Own Hardware and Reduce Scientific Research Costs details the development of the free and open-source hardware revolution. The combination of open-source 3D printing and microcontrollers running on free software enables scientists, engineers, and lab personnel in every discipline to develop powerful research tools at unprecedented low costs.After reading Open-Source Lab, you will be able to: - Lower equipment costs by making your own hardware - Build open-source hardware for scientific research - Actively participate in a community in which scientific results are more easily replicated and cited - Numerous examples of technologies and the open-source user and developer communities that support them - Instructions on how to take advantage of digital design sharing - Explanations of Arduinos and RepRaps for scientific use - A detailed guide to open-source hardware licenses and basic principles of intellectual property
The surprising roles of instruments and experimentation in acquiring knowledge In Philosophical Instruments Daniel Rothbart argues that our tools are not just neutral intermediaries between humans and the natural world, but are devices that demand new ideas about reality. Just as a hunter's new spear can change their knowledge of the environment, so can the development of modern scientific equipment alter our view of the world. Working at the intersections of science, technology, and philosophy, Rothbart examines the revolution in knowledge brought on by recent advances in scientific instruments. Full of examples from historical and contemporary science, including electron scanning microscopes, sixteenth-century philosophical instruments, and diffraction devices used by biochemical researchers, Rothbart explores the ways in which instrumentation advances a philosophical stance about an instrument's power, an experimenter's skills, and a specimen's properties. Through a close reading of engineering of instruments, he introduces a philosophy from (rather than of) design, contending that philosophical ideas are channeled from design plans to models and from model into the use of the devices.
Western philosophers have traditionally concentrated on theory as the means for expressing knowledge about a variety of phenomena. This absorbing book challenges this fundamental notion by showing how objects themselves, specifically scientific instruments, can express knowledge. As he considers numerous intriguing examples, Davis Baird gives us the tools to "read" the material products of science and technology and to understand their place in culture. Making a provocative and original challenge to our conception of knowledge itself, Thing Knowledge demands that we take a new look at theories of science and technology, knowledge, progress, and change. Baird considers a wide range of instruments, including Faraday's first electric motor, eighteenth-century mechanical models of the solar system, the cyclotron, various instruments developed by analytical chemists between 1930 and 1960, spectrometers, and more.
Scientific Instruments between East and West is a collection of essays on aspects of the transmission of knowledge about scientific instruments and the trade in such instruments between the Eastern and Western worlds, particularly from Europe to the Ottoman Empire. The contributors, from a variety of countries, draw on original Arabic and Ottoman Turkish manuscripts and other archival sources and publications dating from the fifteenth to the twentieth centuries not previously studied for their relevance to the history of scientific instruments. This little-studied topic in the history of science was the subject of the 35th Scientific Instrument Symposium held in Istanbul in September 2016, where the original versions of these essays were delivered. Contributors are Mahdi Abdeljaouad, Pierre Ageron, Hamid Bohloul, Patrice Bret, Gaye Danışan, Feza Günergun, Meltem Kocaman, Richard L. Kremer, Janet Laidla, Panagiotis Lazos, David Pantalony, Atilla Polat, Bernd Scholze, Konstantinos Skordoulis, Seyyed Hadi Tabatabaei, Anthony Turner, Hasan Umut, and George Vlahakis. See inside the book here.
This volume moves chemical instruments and experiments into the foreground of historical concern, in line with the emphasis on practice that characterizes current work on other fields of science and engineering.