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  1. Mathematical aspects of the periodic law.Guillermo Restrepo & Leonardo Pachón - 2006 - Foundations of Chemistry 9 (2):189-214.
    We review different studies of the Periodic Law and the set of chemical elements from a mathematical point of view. This discussion covers the first attempts made in the 19th century up to the present day. Mathematics employed to study the periodic system includes number theory, information theory, order theory, set theory and topology. Each theory used shows that it is possible to provide the Periodic Law with a mathematical structure. We also show that it is possible to study the (...)
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  • 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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  • 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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  • Binódic periodic system: a mathematical approach.Julio Antonio Gutiérrez Samanez - 2020 - Foundations of Chemistry 22 (2):235-266.
    This article discusses the mathematizing of the chemical periodic system as a grid, which leads to a quadratic function or “binódica function” formed by pairs of periods or binodos. We describe the periodic law as an increasing function of the principal quantum number. It works subject to the dialectical laws that generate; first: gradual quantitative changes:, with “duplication” of periods:. Second: radical quantitative changes:, with the emergence of new quantum transitions, growth and a change in the format of the binodos. (...)
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  • From telluric helix to telluric remix.Philip J. Stewart - 2019 - Foundations of Chemistry 22 (1):3-14.
    The first attempt to represent the Periodic system graphically was the Telluric Helix presented in 1862 by Alexandre-Emile Béguyer de Chancourtois, in which the sequence of elements was wound round a cylinder. This has hardly been attempted since, because the intervals between periodic returns vary in length from 2 to 32 elements, but Charles Janet presented a model wound round four nested cylinders. The rows in Janet’s table are defined by a constant sum of the first two quantum numbers, n (...)
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  • Rethinking unification : unification as an explanatory value in scientific practice.Merel Lefevere - 2018 - Dissertation, University of Ghent
    This dissertation starts with a concise overview of what philosophers of science have written about unification and its role in scientific explanation during the last 50 years to provide the reader with some background knowledge. In order to bring unification back into the picture, I have followed two strategies, resulting respectively in Parts I and II of this dissertation. In Part I the idea of unification is used to refine and enrich the dominant causalmechanist and causal-interventionist accounts of scientific explanation. (...)
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  • On the ‘true position’ of hydrogen in the Periodic Table.Vladimir M. Petruševski & Julijana Cvetković - 2018 - Foundations of Chemistry 20 (3):251-260.
    Several attempts have recently been made to point to ‘the proper place’ for hydrogen in the Periodic Table of the elements. There are altogether five different types of arguments that lead to the following conclusions: hydrogen should be placed in group 1, above lithium; hydrogen should be placed in group 17, above fluorine; hydrogen is to be placed in group 14, above carbon; hydrogen should be positioned above both lithium and fluorine and hydrogen should be treated as a stand-alone element, (...)
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  • On recent discussion concerning quantum justification of the periodic table of the elements.V. N. Ostrovsky - 2005 - Foundations of Chemistry 7 (3):235-239.
    The recent exchange on the quantum justification of the Periodic System of the Elements in this Journal between Scerri [Foundations of Chemistry 6: 93–116, 2004] and Friedrich [Foundations of Chemistry 6: 117–132, 2004] is supplemented by some methodological comments.
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  • Research of chemical elements and chemical bonds from the view of complex network.Runzhan Liu, Guoyong Mao & Ning Zhang - 2018 - Foundations of Chemistry 21 (2):193-206.
    Though complex networks have been widely applied in the research of chemistry, there is hardly any introduction about the establishment of networks using chemical bonds. In this paper, we consider chemical elements as a system linked by chemical bonds and create the undirected chemical bond network by abstracting nodes from elements and undirected edges from bonds. Connectivity, heterogeneity, small world and disassortativity of this network show the macro structural rationality of this system. The degree and k-order neighbors of an element, (...)
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  • Just how ab initio is ab initio quantum chemistry?Eric R. Scerri - 2004 - Foundations of Chemistry 6 (1):93-116.
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  • Special theory of relativity in chemistry.Nenad Raos - 2022 - Foundations of Chemistry 24 (1):87-95.
    Application of Einstein special theory of relativity in chemistry seems to be superfluous; energies are too low. The average velocity of electron in hydrogen atom is 1/135 c, making its actual mass only 26,6 ppm bigger than the rest mass. However, for heavier elements relativistic effects have to be taken into account and, more, many phenomena cannot be explained without ascribing new mass to electrons, in accordance with Einstein theory. In this paper such phenomena are described: color of metallic gold (...)
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  • Recommended questions on the road towards a scientific explanation of the periodic system of chemical elements with the help of the concepts of quantum physics.W. H. Eugen Schwarz - 2006 - Foundations of Chemistry 9 (2):139-188.
    Periodic tables (PTs) are the ‘ultimate paper tools’ of general and inorganic chemistry. There are three fields of open questions concerning the relation between PTs and physics: (i) the relation between the chemical facts and the concept of a periodic system (PS) of chemical elements (CEs) as represented by PTs; (ii) the internal structure of the PS; (iii)␣The relation between the PS and atomistic quantum chemistry. The main open questions refer to (i). The fuzziness of the concepts of chemical properties (...)
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