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  1. William Whewell, Cluster Theorist of Kinds.Zina B. Ward - 2023 - Hopos: The Journal of the International Society for the History of Philosophy of Science 13 (2):362-386.
    A dominant strand of philosophical thought holds that natural kinds are clusters of objects with shared properties. Cluster theories of natural kinds are often taken to be a late twentieth-century development, prompted by dissatisfaction with essentialism in philosophy of biology. I will argue here, however, that a cluster theory of kinds had actually been formulated by William Whewell (1794-1866) more than a century earlier. Cluster theories of kinds can be characterized in terms of three central commitments, all of which are (...)
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  • The Whewell-Mill debate on predictions, from Mill's point of view.Cornelis Menke - 2018 - Studies in History and Philosophy of Science Part A 69:60-71.
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  • Whewell’s tidal researches: scientific practice and philosophical methodology.Steffen Ducheyne - 2010 - Studies in History and Philosophy of Science Part A 41 (1):26-40.
    Primarily between 1833 and 1840, William Whewell attempted to accomplish what natural philosophers and scientists since at least Galileo had failed to do: to provide a systematic and broad-ranged study of the tides and to attempt to establish a general scientific theory of tidal phenomena. I document the close interaction between Whewell’s philosophy of science and his scientific practice as a tidologist. I claim that the intertwinement between Whewell’s methodology and his tidology is more fundamental than has hitherto been documented.Keywords: (...)
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  • Scientific method.Brian Hepburn & Hanne Andersen - 2015 - Stanford Encyclopedia of Philosophy.
    1. Overview and organizing themes 2. Historical Review: Aristotle to Mill 3. Logic of method and critical responses 3.1 Logical constructionism and Operationalism 3.2. H-D as a logic of confirmation 3.3. Popper and falsificationism 3.4 Meta-methodology and the end of method 4. Statistical methods for hypothesis testing 5. Method in Practice 5.1 Creative and exploratory practices 5.2 Computer methods and the ‘third way’ of doing science 6. Discourse on scientific method 6.1 “The scientific method” in science education and as seen (...)
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  • Robert Leslie Ellis and John Stuart mill on the one and the many of frequentism.Berna Kilinç - 2000 - British Journal for the History of Philosophy 8 (2):251-274.
    (2000). ROBERT LESLIE ELLIS AND JOHN STUART MILL ON THE ONE AND THE MANY OF FREQUENTISM. British Journal for the History of Philosophy: Vol. 8, No. 2, pp. 251-274.
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  • J.S. Mill’s Canons of Induction: from True Causes to Provisional Ones.Steffen Ducheyne - 2008 - History and Philosophy of Logic 29 (4):361-376.
    In this essay, my aim is twofold: to clarify how the late Mill conceived of the certainty of inductive generalizations and to offer a systematic clarification of the limited domain of application of the Mill’s Canons of Induction. I shall argue that Mill’s views on the certainty of knowledge changed overtime and that this change was accompanied by a new view on the certainty of the inductive results yielded by the Canons of Induction. The key message of the later editions (...)
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  • William Whewell.Laura J. Snyder - 2008 - Stanford Encyclopedia of Philosophy.
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  • Discoverers' induction.Laura J. Snyder - 1997 - Philosophy of Science 64 (4):580-604.
    In this paper I demonstrate that, contrary to the standard interpretations, William Whewell's view of scientific method is neither that of the hypothetico-deductivist nor that of the retroductivist. Rather, he offers a unique inductive methodology, which he calls "discoverers' induction." After explicating this methodology, I show that Kepler's discovery of his first law of planetary motion conforms to it, as Whewell claims it does. In explaining Whewell's famous phrase about "happy guesses" in science, I suggest that Whewell intended a distinction (...)
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  • Question-driven stepwise experimental discoveries in biochemistry: two case studies.Michael Fry - 2022 - History and Philosophy of the Life Sciences 44 (2):1-52.
    Philosophers of science diverge on the question what drives the growth of scientific knowledge. Most of the twentieth century was dominated by the notion that theories propel that growth whereas experiments play secondary roles of operating within the theoretical framework or testing theoretical predictions. New experimentalism, a school of thought pioneered by Ian Hacking in the early 1980s, challenged this view by arguing that theory-free exploratory experimentation may in many cases effectively probe nature and potentially spawn higher evidence-based theories. Because (...)
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  • COI Stories: Explanation and Evidence in the History of Science.Michel Janssen - 2002 - Perspectives on Science 10 (4):457-522.
    This paper takes as its point of departure two striking incongruities between scientiªc practice and trends in modern history and philosophy of science. (1) Many modern historians of science are so preoccupied with local scientiªc practices that they fail to recognize important non-local elements. (2) Many modern philosophers of science make a sharp distinction between explanation and evidence, whereas in scientiªc practice explanatory power is routinely used as evidence for scientiªc claims. I draw attention to one speciªc way in..
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  • Quantitative realizations of philosophy of science: William Whewell and statistical methods.Kent Johnson - 2011 - Studies in History and Philosophy of Science Part A 42 (3):399-409.
    In this paper, I examine William Whewell’s (1794–1866) ‘Discoverer’s Induction’, and argue that it 21 supplies a strikingly accurate characterization of the logic behind many statistical methods, exploratory 22 data analysis (EDA) in particular. Such methods are additionally well-suited as a point of evaluation of 23 Whewell’s philosophy since the central techniques of EDA were not invented until after Whewell’s death, 24 and so couldn’t have influenced his views. The fact that the quantitative details of some very general 25 methods (...)
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  • Unwarranted assumptions: Claude Bernard and the growth of the vera causa standard.Raphael Scholl - 2020 - Studies in History and Philosophy of Science Part A 82 (C):120-130.
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  • Inductivism in Practice: Experiment in John Herschel’s Philosophy of Science.Aaron D. Cobb - 2012 - Hopos: The Journal of the International Society for the History of Philosophy of Science 2 (1):21-54.
    The aim of this work is to elucidate John F. W. Herschel’s distinctive contribution to nineteenth-century British inductivism by exploring his understanding of experimental methods. Drawing on both his explicit discussion of experiment in his Preliminary Discourse on Natural Philosophy and his published account of experiments he conducted in the domain of electromagnetism, I argue that the most basic principle underlying Herschel’s epistemology of experiment is that experiment enables a particular kind of lower-level experimental understanding of phenomena. Experimental practices provide (...)
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  • Is John F. W. Herschel an Inductivist about Hypothetical Inquiry?Aaron D. Cobb - 2012 - Perspectives on Science 20 (4):409-439.
    John Herschel's discussion of hypotheses in the Preliminary Discourse on Natural Philosophy has generated questions concerning his commitment to the principle that hypothetical speculation is legitimate only if warranted by inductive evidence. While Herschel explicitly articulates an inductivist philosophy of science, he also asserts that “it matters little how {a hypothesis or theory} has been originally framed” when it can withstand extensive testing and empirical scrutiny. This evidence has convinced some that Herschel endorses an early form of hypothetico-deductivism. I aim (...)
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