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From _Topos_ to _Oikos_: The Standardization of Glass Containers as Epistemic Boundaries in Modern Laboratory Research (1850–1900) [Book Review]

Kijan Espahangizi

Science in Context 28 (3):397-425 (2015)

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The Public Image of Chemistry.Joachim Schummer & Bernadette Bensaude-Vincent - unknowndetails Of all the scientific disciplines chemistry seems to be particularly concerned about its public image. Indeed, popular associations with chemistry range from poisons, hazards, chemical warfare, and environmental pollution to alchemical pseudo-science, sorcery, and mad scientists. Despite repeated campaigns for convincing the public that chemistry would bring health, comfort, and welfare, chemists frequently meet with hostility in popular culture. As student enrollment numbers has been shrinking, chemistry departments have been closed in several countries. Also in humanist culture chemistry has a (...) Download Export citation Bookmark 2 citations
Toward a History of Epistemic Things: Synthesizing Proteins in a Test Tube.[author unknown] - 1999 - Journal of the History of Biology 32 (3):563-565.details Download Export citation Bookmark 241 citations
Review. Norton M Wise (ed). The values of precision.Mauricio Suárez - 1996 - British Journal for the Philosophy of Science 47 (3):483-486.details Download Export citation Bookmark 13 citations
‘Through thousands of errors we reach the truth’—but how? On the epistemic roles of error in scientific practice.Jutta Schickore - 2005 - Studies in History and Philosophy of Science Part A 36 (3):539-556.details This essay is concerned with the epistemic roles of error in scientific practice. Usually, error is regarded as something negative, as an impediment or obstacle for the advancement of science. However, we also frequently say that we are learning from error. This common expression suggests that the role of error is not—at least not always—negative but that errors can make a fruitful contribution to the scientific enterprise. My paper explores the latter possibility. Can errors play an epistemically productive role in (...) Download Export citation Bookmark 12 citations
Ever-present impediments: Exploring instruments and methods of microscopy.Jutta Schickore - 2001 - Perspectives on Science 9 (2):126-146.details : This article analyzes the transformation of epistemological and methodological discourses in German microscopy. It is argued that the expansion of microscopy in the early decades of the nineteenth century was pivotal for the emergence of intricate methodologies that characterized the instruments and methods of microscopy in new ways. Close examination of these means of investigation showed them to be intrinsically imperfect. The flaws of the instrument, the faults of the observer's eyes and the obstructive power of the objects of (...) Download Export citation Bookmark 3 citations
The Laboratory Revolution in Medicine.Andrew Cunningham, Perry Williams & Bernardino Fantini - 1994 - History and Philosophy of the Life Sciences 16 (2):355.details Download Export citation Bookmark 24 citations
The Culture of Cities.Lewis Mumford - 1938 - Science and Society 2 (4):532-535.details Download Export citation Bookmark 27 citations
Re-examining the Research School: August Wilhelm Hofmann and the Re-Creation of Liebigian Research School in London.Catherine M. Jackson - 2006 - History of Science 44 (3):281-319.details Download Export citation Bookmark 2 citations
The Design of Disturbance: Physics Institutes and Physics Research in Germany, 1870–1910.Christoph Hoffmann - 2001 - Perspectives on Science 9 (2):173-195.details : During the "institutional revolution" between 1870 and 1910 almost two dozen physics institutes were newly erected in Germany. The design of these buildings was largely determined by sets of precautions against various sorts of disturbances. These undertakings were by no means unique. Recent historical studies have identified similar attempts in physics institutes outside Germany. But as yet, hardly a word has been wasted on the necessity of these precautionary measures. It seems to be self-explanatory that disturbances should be precluded (...) Download Export citation Bookmark 3 citations
Secondary matters: On disturbances, contamination, and waste as objects of research.Christoph Hoffmann & Jutta Schickore - 2001 - Perspectives on Science 9 (2):123-125.details : The contributions to this volume originate from the workshop "Hauptsachen und Nebendinge—Pure Science and its Impurities," organized by Christoph Hoffmann, which took place at the Max-Planck-Institute for the History of Science (Berlin) in July 2000. We wish to thank all participants for rich and stimulating talks and discussions. Download Export citation Bookmark 1 citation
Surfaces of action: cells and membranes in electrochemistry and the life sciences.Mathias Grote - 2010 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 41 (3):183-193.details The term ‘cell’, in addition to designating fundamental units of life, has also been applied since the nineteenth century to technical apparatuses such as fuel and galvanic cells. This paper shows that such technologies, based on the electrical effects of chemical reactions taking place in containers, had a far-reaching impact on the concept of the biological cell. My argument revolves around the controversy over oxidative phosphorylation in bioenergetics between 1961 and 1977. In this scientific conflict, a two-level mingling of technological (...) Download Export citation Bookmark 9 citations
The Uses of Experiment: Studies in the Natural Sciences.David Gooding, Trevor Pinch & Simon Schaffer - 1989 - Cambridge University Press. Edited by David Gooding, Trevor Pinch & Simon Schaffer.details Contributors; Preface; Introduction; Part I. Instruments in Experiments: 1. Scientific instruments: models of brass and aids to discovery; 2. Glass works: Newton’s prisms and the uses of experiment; 3. A viol of water or a wedge of glass; Part II. Experiment and Argument: 4. Galileo’s experimental discourse; 5. Fresnel, Poisson and the white spot: the role of successful predictions in the acceptance of scientific theories; 6. The rhetoric of experiment; Part III. Representing and Realising: 7. ’Magnetic curves’ and the magnetic (...) Download Export citation Bookmark 34 citations
Biographies of Scientific Objects. [REVIEW]Lorraine Daston - 2002 - History and Philosophy of the Life Sciences 23 (3/4):551-551.details Why does an object or phenomenon become the subject of scientific inquiry? Why do some of these objects remain provocative, while others fade from center stage? And why do objects sometimes return as the focus of research long after they were once abandoned? Addressing such questions, _Biographies of Scientific Objects_ is about how whole domains of phenomena—dreams, atoms, monsters, culture, society, mortality, centers of gravity, value, cytoplasmic particles, the self, tuberculosis—come into being and sometimes pass away as objects of scientific (...) Download Export citation Bookmark 58 citations

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