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  1. Restaging Liebig: A Study in the Replication of Experiments.Melvyn Usselman, Alan Rocke, Christina Reinhart & Kelly Foulser - 2005 - Annals of Science 62 (1):1-55.
    In a publication of 1831 later seen as a milestone in the development of chemistry, Justus Liebig announced a new apparatus for the analysis of organic compounds and provided analytical results for fifteen substances. In this paper we used the detailed descriptions published by Liebig in 1837 to reconstruct his apparatus and methods for hydrogen, carbon and nitrogen analysis. Our replications of his analyses of racemic acid, cinchonine, narcotine, and urea reveal that his two pieces of apparatus give excellent results (...)
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  • Qualities, Universals, Kinds, and the New Riddle of induction.F. Thomas Burke - 2002 - In F. Thomas Burke, D. Micah Hester & Robert B. Talisse (eds.), Dewey's logical theory: new studies and interpretations. Nashville: Vanderbilt University Press.
    The limited aim here is to explain what John Dewey might say about the formulation of the grue example. Nelson Goodman’s problem of distinguishing good and bad inductive inferences is an important one, but the grue example misconstrues this complex problem for certain technical reasons, due to ambiguities that contemporary logical theory has not yet come to terms with. Goodman’s problem is a problem for the theory of induction and thus for logical theory in general. Behind the whole discussion of (...)
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  • ‘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.
    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 (...)
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  • Dispersion, experimental apparatus, and the acceptance of the wave theory of light.Xiang Chen - 1998 - Annals of Science 55 (4):401-420.
    This paper concentrates on a debate over dispersion in the second half of the 1830s, in which both sides utilized the same set of experimental data to test a proposed wave account of dispersion, but could not agree on how these data should be used. The conflict regarding experimental data was caused by differences in instruments. In the debate, optical instruments in many ways functioned like paradigms, shaping scientists' opinions. Instruments also led the debate into an impasse, because no apparatus (...)
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  • Europe and the Microscope in the Enlightenment.Marc Ratcliff - unknown
    While historians of the microscope currently consider that no programme of microscopy took place during the Enlightenment, the thesis challenges this view and aims at showing when and where microscopes were used as research tools. The focus of the inquiry is the research on microscopic animalcules and the relationship of European microscope making and practices of microscopy with topical trends of the industrial revolution, such as quantification. Three waves of research are characterised for the research on animalcules in the Enlightenment: (...)
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  • Ever-present impediments: Exploring instruments and methods of microscopy.Jutta Schickore - 2001 - Perspectives on Science 9 (2):126-146.
    : 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 (...)
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  • Haunted thoughts of the careful experimentalist: Psychical research and the troubles of experimental physics.Richard Noakes - 2014 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 48:46-56.
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  • Experience, pedagogy, and the study of terrestrial magnetism.Diane Greco Josefowicz - 2005 - Perspectives on Science 13 (4):452-494.
    : In 1842, British astronomer Sir John Herschel wrote a letter to Carl Friedrich Gauss seeking his advice about how to make data collection more efficient on the Magnetic Crusade, a large-scale initiative to study the earth's magnetic field. Surprisingly, even though Gauss had managed a similar initiative, he refused to give Herschel the advice he wanted, claiming that he needed to see Herschel's results before he could reply. Taking this miscommunication as a point of departure, this article traces the (...)
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