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  1. Natural Kinds (Cambridge Elements in Philosophy of Science).Muhammad Ali Khalidi - 2023 - Cambridge University Press.
    Scientists cannot devise theories, construct models, propose explanations, make predictions, or even carry out observations, without first classifying their subject matter. The goal of scientific taxonomy is to come up with classification schemes that conform to nature's own. Another way of putting this is that science aims to devise categories that correspond to 'natural kinds.' The interest in ascertaining the real kinds of things in nature is as old as philosophy itself, but it takes on a different guise when one (...)
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  • 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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  • No Grist for Mill on Natural Kinds.P. D. Magnus - 2014 - Journal for the History of Analytical Philosophy 2 (4).
    According to the standard narrative, natural kind is a technical notion that was introduced by John Stuart Mill in the 1840s and the recent craze for natural kinds, launched by Putnam and Kripke, is a continuation of that tradition. I argue that the standard narrative is mistaken. The Millian tradition of kinds was not particularly influential in the 20th-century, and the Putnam-Kripke revolution did not clearly engage with even the remnants that were left of it. The presently active tradition of (...)
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  • Natural kinds as nodes in causal networks.Muhammad Ali Khalidi - 2018 - Synthese 195 (4):1379-1396.
    In this paper I offer a unified causal account of natural kinds. Using as a starting point the widely held view that natural kind terms or predicates are projectible, I argue that the ontological bases of their projectibility are the causal properties and relations associated with the natural kinds themselves. Natural kinds are not just concatenations of properties but ordered hierarchies of properties, whose instances are related to one another as causes and effects in recurrent causal processes. The resulting account (...)
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  • Scientific enquiry and natural kinds: from planets to mallards.P. D. Magnus - 2012 - New York, NY: Palgrave-Macmillan.
    Some scientific categories seem to correspond to genuine features of the world and are indispensable for successful science in some domain; in short, they are natural kinds. This book gives a general account of what it is to be a natural kind and puts the account to work illuminating numerous specific examples.
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  • Natural Kinds: Rosy Dawn, Scholastic Twilight.Ian Hacking - 2007 - Royal Institute of Philosophy Supplement 61:203-239.
    The rosy dawn of my title refers to that optimistic time when the logical concept of a natural kind originated in Victorian England. The scholastic twilight refers to the present state of affairs. I devote more space to dawn than twilight, because one basic problem was there from the start, and by now those origins have been forgotten. Philosophers have learned many things about classification from the tradition of natural kinds. But now it is in disarray and is unlikely to (...)
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  • Philosophy as conceptual engineering: Inductive logic in Rudolf Carnap's scientific philosophy.Christopher F. French - 2015 - Dissertation, University of British Columbia
    My dissertation explores the ways in which Rudolf Carnap sought to make philosophy scientific by further developing recent interpretive efforts to explain Carnap’s mature philosophical work as a form of engineering. It does this by looking in detail at his philosophical practice in his most sustained mature project, his work on pure and applied inductive logic. I, first, specify the sort of engineering Carnap is engaged in as involving an engineering design problem and then draw out the complications of design (...)
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  • The rule of succession.Sandy L. Zabell - 1989 - Erkenntnis 31 (2-3):283 - 321.
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  • Understanding induction.John Macnamara - 1991 - British Journal for the Philosophy of Science 42 (1):21-48.
    The paper offers a new understanding of induction in the empirical sciences, one which assimilates it to induction in geometry rather than to statistical inference. To make the point a system of notions, essential to logically sound induction, is defined. Notable among them are arbitrary object and particular property. A second aim of the paper is to bring to light a largely neglected set of assumptions shared by both induction and deduction in the empirical sciences. This is made possible by (...)
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  • Natural diversity: A neo-essentialist misconstrual of homeostatic property cluster theory in natural kind debates.Joachim Lipski - 2020 - Studies in History and Philosophy of Science Part A 82 (C):94-103.
    In natural kind debates, Boyd's famous Homeostatic Property Cluster theory (HPC) is often misconstrued in two ways: Not only is it thought to make for a normative standard for natural kinds, but also to require the homeostatic mechanisms underlying nomological property clusters to be uniform. My argument for the illegitimacy of both overgeneralizations, both on systematic as well as exegetical grounds, is based on the misconstrued view's failure to account for functional kinds in science. I illustrate the combination of these (...)
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  • Are there necessary connections in nature?Milton Fisk - 1970 - Philosophy of Science 37 (3):385-404.
    The following questions are discussed here. Is induction a reasonable procedure in the context of a denial of physically necessary connections? What is physical necessity? If induction does presuppose physical necessity, what amount of it is presupposed? It is argued that with logic as the only restriction on what is to count as a possible world, it is unreasonable to claim that observed connections, whether universal or statistical, will continue to hold. The concept of physical necessity is no more problematic (...)
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  • J. M. Keynes's position on the general applicability of mathematical, logical and statistical methods in economics and social science.Michael Emmett Brady - 1988 - Synthese 76 (1):1 - 24.
    The author finds no support for the claim that J. M. Keynes had severe reservations, in general, as opposed to particular, concerning the application of mathematical, logical and statistical methods in economics. These misinterpretations rest on the omission of important source material as well as a severe misconstrual ofThe Treatise on Probability (1921).
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  • Ramsey, truth, and probability.S. L. Zabell - 1991 - Theoria 57 (3):211-238.
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