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  1. From the mendeleev periodic table to particle physics and back to the periodic table.Maurice R. Kibler - 2007 - Foundations of Chemistry 9 (3):221-234.
    We briefly describe in this paper the passage from Mendeleev’s chemistry (1869) to atomic physics (in the 1900’s), nuclear physics (in 1932) and particle physics (from 1953 to 2006). We show how the consideration of symmetries, largely used in physics since the end of the 1920’s, gave rise to a new format of the periodic table in the 1970’s. More specifically, this paper is concerned with the application of the group SO(4,2)⊗SU(2) to the periodic table of chemical elements. It is (...)
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  • Philosophy of chemistry in university chemical education: The case of models and modelling. [REVIEW]Rosária S. Justi & John K. Gilbert - 2002 - Foundations of Chemistry 4 (3):213-240.
    If chemistry is to be taught successfully, teachers must have a good subject matter knowledge (SK) of the ideas with which they are dealing, the nature of this falling within the orbit of philosophy of chemistry. They must also have a good pedagogic content knowledge (PCK), the ability to communicate SK to students, the nature of this falling within the philosophy and psychology of chemical education. Taking the case of models and modelling, important themes in the philosophy of chemistry, an (...)
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  • Breaking the law: Promoting domain-specificity in chemical education in the context of arguing about the periodic law. [REVIEW]Sibel Erduran - 2007 - Foundations of Chemistry 9 (3):247-263.
    In this paper, domain-specificity is presented as an understudied problem in chemical education. This argument is unpacked by drawing from two bodies of literature: learning of science and epistemology of science, both themes that have cognitive as well as philosophical undertones. The wider context is students’ engagement in scientific inquiry, an important goal for science education and one that has not been well executed in everyday classrooms. The focus on science learning illustrates the role of domain specificity in scientific reasoning. (...)
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  • Early impact of quantum physics on chemistry: George Hevesy’s work on rare earth elements and Michael Polanyi’s absorption theory. [REVIEW]Gabor Pallo - 2011 - Foundations of Chemistry 13 (1):51-61.
    After Heitler and London published their pioneering work on the application of quantum mechanics to chemistry in 1927, it became an almost unquestioned dogma that chemistry would soon disappear as a discipline of its own rights. Reductionism felt victorious in the hope of analytically describing the chemical bond and the structure of molecules. The old quantum theory has already produced a widely applied model for the structure of atoms and the explanation of the periodic system. This paper will show two (...)
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  • When did atoms begin to do any explanatory work in chemistry?Paul Needham - 2004 - International Studies in the Philosophy of Science 18 (2 & 3):199 – 219.
    During the 19th century atomism was a controversial issue in chemistry. It is an oversimplification to dismiss the critics' arguments as all falling under the general positivist view that what can't be seen can't be. The more interesting lines of argument either questioned whether any coherent notion of an atom had ever been formulated or questioned whether atoms were ever really given any explanatory role. At what point, and for what reasons, did atomistic hypotheses begin to explain anything in chemistry? (...)
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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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  • Prediction and the periodic table.Eric R. Scerri & John Worrall - 2001 - Studies in History and Philosophy of Science Part A 32 (3):407-452.
    The debate about the relative epistemic weights carried in favour of a theory by predictions of new phenomena as opposed to accommodations of already known phenomena has a long history. We readdress the issue through a detailed re-examination of a particular historical case that has often been discussed in connection with it—that of Mendeleev and the prediction by his periodic law of the three ‘new’ elements, gallium, scandium and germanium. We find little support for the standard story that these predictive (...)
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  • Commentary on Allen & Kinght’s Response to the Löwdin Challenge.Eric R. Scerri - 2006 - Foundations of Chemistry 8 (3):285-292.
    This commentary provides a critical examination of a recent article by Allen and Knight in which the authors claim to provide the long-sought explanation for the Madelung, or n + ℓ, n rule for the order of orbital filling in many-electron atoms. It is concluded that the explanation is inadequate for several reasons.
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  • Recent Work in the History and Philosophy of Chemistry.Jeffry L. Ramsey - 1998 - Perspectives on Science 6 (4):409-427.
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  • Conceptual Changes in Chemistry: The Notion of a Chemical Element, ca. 1900–1925.Helge Kragh - 2000 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 31 (4):435-450.
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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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  • Mixture and chemical combination and related essays: A response to Robert Deltete and Anastasios Brenner.Paul Needham - 2004 - Foundations of Chemistry 6 (3):233-245.
    Robert Deltete and Anastasios Brenner have provided a thorough examination of my translation of Duhem’s Le mixte et la combinaison chimique (1902) and associated essays. I am very grateful for their efforts and gratified that such competent reviewers should be generally positive. They provide an overview of relevant aspects of Duhem’s life and work, which may serve to introduce him to readers of this journal and promote interest in Duhem studies. They also raise and answer some questions about the interpretation (...)
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  • Bohr's theory of the atom 1913–1923: A case study in the progress of scientific research programmes.Hinne Hettema - 1995 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 26 (3):307-323.
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