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  1. The periodic table and the turn to practice.Eric R. Scerri - forthcoming - Studies in History and Philosophy of Science Part A.
    The philosopher of chemistry Andrea Woody has recently published a wide-ranging article concerning the turn to practice in the philosophy of science. Her primary example consists of the use of different forms of representations by Lothar Meyer and Mendeleev when they presented their views on chemical periodicity. Woody believes that this distinction can cast light on various issues including why Mendeleev was able to make predictions while Meyer was not. Secondly, she claims that it can clarify the much-debated question concerning (...)
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  • Bibliography of Structuralism III.Cláudio Abreu, Pablo Lorenzano & Ulises Moulines - 2013 - Metatheoria 3 (2):01-36.
    In two occasions a Bibliography of Structuralism has been published in Erkenntnis (1989, 1994). Since then a lot of water has flowed under the bridge and the structuralist program has shown a continuous development. The aim of the present bibliography is to celebrate the 25th anniversary of the publication of An Architectonic for Science –structuralism’s main reference work– and of its recent translation into Spanish by updating the previous bibliographies with titles which have appeared since 1994 as well as before (...)
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  • Emergence and Reduction in Science. A Case Study.Alexandru Manafu - unknown
    The past decade or so has witnessed an increase in the number of philosophical discussions about emergence and reduction in science. However, many of these discussions (though not all) remain too abstract and theoretical, and are wanting with respect to concrete examples taken from the sciences. This dissertation studies the topics of reduction and emergence in the context of a case study. I focus on the case of chemistry and investigate how emergentism can help us secure the autonomy of this (...)
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  • The world: An unruly mess. [REVIEW]J. van Brakel - 2001 - Foundations of Chemistry 3 (3):251-262.
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  • Reflections about mathematical chemistry.A. T. Balaban - 2005 - Foundations of Chemistry 7 (3):289-306.
    A personal account is presented for the present status of mathematical chemistry, with emphasis on non-numerical applications. These use mainly graph-theoretical concepts. Most computational chemical applications involve quantum chemistry and are therefore largely reducible to physics, while discrete mathematical applications often do not. A survey is provided for opinions and definitions of mathematical chemistry, and then for journals, books and book series, as well as symposia of mathematical chemistry.
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  • A Measurement-Theoretic View on the Early Evolution of the Ordering of Chemical Elements.Ave Mets - 2020 - Acta Baltica Historiae Et Philosophiae Scientiarum 8 (1):5-32.
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  • A new definition of reduction between two scientific theories: no reduction of chemistry to quantum mechanics.Antonino Drago - 2020 - Foundations of Chemistry 22 (3):421-445.
    All suggested notions of reduction of two scientific theories are critically reviewed and analyzed. In particular those applied to the case of the alleged reduction of Chemistry to Quantum mechanics are examined. Since it is recognized that the weakness of this field of research is the lack of a definition of a scientific theory, it is suggested that a scientific theory is characterized by two choices regarding two dichotomies, that is, the kind of mathematics and the kind of logic. According (...)
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  • Causal explanation and the periodic table.Lauren N. Ross - 2018 - Synthese 198 (1):79-103.
    The periodic table represents and organizes all known chemical elements on the basis of their properties. While the importance of this table in chemistry is uncontroversial, the role that it plays in scientific reasoning remains heavily disputed. Many philosophers deny the explanatory role of the table and insist that it is “merely” classificatory (Shapere, in F. Suppe (Ed.) The structure of scientific theories, University of Illinois Press, Illinois, 1977; Scerri in Erkenntnis 47:229–243, 1997). In particular, it has been claimed that (...)
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  • An appraisal of Mendeleev’s contribution to the development of the periodic table.Mansoor Niaz, María A. Rodríguez & Angmary Brito - 2004 - Studies in History and Philosophy of Science Part A 35 (2):271-282.
    Historians and philosophers of science generally conceptualize scientific progress to be dichotomous, viz., experimental observations lead to scientific laws, which later facilitate the elaboration of explanatory theories. There is considerable controversy in the literature with respect to Mendeleev’s contribution to the origin, nature, and development of the periodic table. The objectives of this study are to explore and reconstruct: a) periodicity in the periodic table as a function of atomic theory; b) role of predictions in scientific theories and its implications (...)
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  • Causation, electronic configurations and the periodic table.Eric R. Scerri - 2020 - Synthese 198 (10):9709-9720.
    The article examines a recent interventionist account of causation by Ross, in which electronic configurations of atoms are considered to be the cause of chemical behavior. More specifically I respond to the claim that a change in electronic configuration of an atom, such as occurs in the artificial synthesis of elements, causes a change in the behavior of the atom in question. I argue that chemical behavior is governed as much by the nuclear charge of an atom as it is (...)
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  • Response to Needham.Eric R. Scerri - 1999 - International Studies in the Philosophy of Science 13 (2):185 – 192.
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  • On the neglect of the philosophy of chemistry.J. van Brakel - 1999 - Foundations of Chemistry 1 (2):111-174.
    In this paper I present a historiography of the recent emergence of philosophy of chemistry. Special attention is given to the interest in this domain in Eastern Europe before the collapse of the USSR. It is shown that the initial neglect of the philosophy of chemistry is due to the unanimous view in philosophy and philosophy of science that only physics is a proper science (to put in Kant's words). More recently, due to the common though incorrect assumption that chemistry (...)
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  • Newlands revisited: A display of the periodicity of the chemical elements for chemists. [REVIEW]E. G. Marks & J. A. Marks - 2010 - Foundations of Chemistry 12 (1):85-93.
    This is a periodic table explicitly for chemists rather than physicists. It is derived from Newlands’ columns. It solves many problems such as the positions of hydrogen, helium, beryllium, zinc and the lanthanoids but all within a succinct format.
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  • Bibilography of secondary sources on the periodic system of the chemical elements.Eric R. Scerri & Jacob Edwards - 2001 - Foundations of Chemistry 3 (2):183-195.
    One of the consequences of the renewed interest in philosophical aspects of chemistry has been the corresponding renewed interest in the periodic system of the elements which embodies so much chemical knowledge in an implicit form.We have therefore decided to further promote scholarship on the periodic system by compiling a bibliography of previously published material. As the title of this article implies, we restrict ourselves to secondary sources. Readers interested in primary material can consult a number of useful references for (...)
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  • Reduction in chemistry - a second response to Scerri.Paul Needham - 2000 - International Studies in the Philosophy of Science 14 (3):317 – 323.
    In this rejoinder to Eric Scerri's response to my first comment on his paper on the reduction of chemistry to physics, the main point concerns laws in chemistry. But other themes touched upon include the assumptions involved in ab initio calculations, the question of what is reduced to what on Scerri's view, and the significance he attaches to the term "naturalism".
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  • Reduction and abduction in chemistry‐a response to Scerri.Paul Needham - 1999 - International Studies in the Philosophy of Science 13 (2):169 – 184.
    Eric Scerri has proposed an account of how reduction might be understood in chemistry. He claims to build on a general aspect of Popper's views which survives his otherwise heavy criticism, namely adherence to actual scientific practice. This is contrasted with Nagel's conception, which Scerri takes to be the philosopher's standard notion. I argue that his proposal, interesting though it is, is not so foreign to ideas in the tradition within which Nagel wrote as Scerri would have us believe. Moreover, (...)
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  • The atom in the chemistry curriculum: Fundamental concept, teaching model or epistemological obstacle?Keith S. Taber - 2003 - Foundations of Chemistry 5 (1):43-84.
    Research into learners' ideas aboutscience suggests that school and collegestudents often hold alternative conceptionsabout `the atom'. This paper discusses whylearners acquire ideas about atoms which areincompatible with the modern scientificunderstanding. It is suggested that learners'alternative ideas derive – at least in part –from the way ideas about atoms are presented inthe school and college curriculum. Inparticular, it is argued that the atomicconcept met in science education is anincoherent hybrid of historical models, andthat this explains why learners commonlyattribute to atoms properties (...)
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  • Editorial 8 – special issue on the periodic system of the elements.Eric R. Scerri - 2001 - Foundations of Chemistry 3 (2):97-104.
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