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Laws and Theories in Chemistry Do Not Obey the Rules

In Nalini Bhushan & Stuart M. Rosenfeld (eds.), Of Minds and Molecules: New Philosophical Perspectives on Chemistry. Oxford University Press. pp. 34--50 (2000)

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  1. What did “theory” mean to nineteenth-century chemists?Alan Rocke - 2013 - Foundations of Chemistry 15 (2):145-156.
    Some recent philosophers of science have argued that chemistry in the nineteenth century “largely lacked theoretical foundations, and showed little progress in supplying such foundations” until around 1900, or even later. In particular, nineteenth-century atomic theory, it is said, “played no useful part” in the crowning achievement of nineteenth-century chemistry, the powerful subdiscipline of organic chemistry. This paper offers a contrary view. The idea that chemistry only gained useful theoretical foundations when it began to merge with physics, it will be (...)
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  • Connections between pedagogical and epistemological constructivism: Questions for teaching and research in chemistry. [REVIEW]Donald J. Wink - 2006 - Foundations of Chemistry 8 (2):111-151.
    The rich and ongoing debate about constructivism in chemistry education includes questions about the relationship, for better or worse, between applications of the theory in pedagogy and in epistemology. This paper presents an examination of the potential to use connections of epistemological and pedagogical constructivism to one another. It examines connections linked to the content, processes, and premises of science with a goal of prompting further research in these areas.
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  • Chemistry and a theoretical model of science: On the occasion of a recent debate with the christies. [REVIEW]Rein Vihalemm - 2005 - Foundations of Chemistry 7 (2):171-182.
    In the philosophy of chemistry a view is developed according to which laws of nature and scientific theories are peculiar in chemistry. This view was criticized in an earlier issue of the Foundations of Chemistry (Vihalemm, Foundation of Chemistry 5(1): 7–22, 2003) referring to an essay by Maureen and John Christie (Christie and Christie, in N. Bushan and S. Rosenfeld (Eds.), Of Minds and Molecules: New Philosophical Perspectives on Chemistry. Oxford University Press, New York, 2000, pp. 34–50). This criticism was (...)
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  • The location and composition of Group 3 of the periodic table.René E. Vernon - 2021 - Foundations of Chemistry 23 (2):155-197.
    Group 3 as Sc–Y–La, rather than Sc–Y–Lu, dominates the literature. The history of this situation, including involvement by the IUPAC, is summarised. I step back from the minutiae of physical, chemical, and electronic properties and explore considerations of regularity and symmetry, natural kinds, and quantum mechanics, finding these to be inconclusive. Continuing the theme, a series of ten interlocking arguments, in the context of a chemistry-based periodic table, are presented in support of lanthanum in Group 3. In so doing, I (...)
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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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  • Why water is not H2O, and other critiques of essentialist ontology from the philosophy of chemistry.Holly VandeWall - 2007 - Philosophy of Science 74 (5):906-919.
    Ellis argues that certain essential properties of objects in the world not only determine the nature of these objects but also how they will behave in any situation. In this paper I will critique Ellis's essentialism from the perspective of the philosophy of chemistry, arguing that our current knowledge of chemistry in fact does not lend itself to essentialist interpretations and that this seriously undercuts Ellis's project. In particular I will criticize two key distinctions Ellis draws between internal vs. external (...)
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  • Chemical Laws, Idealization and Approximation.Emma Tobin - 2013 - Science & Education 22 (7):1581-1592.
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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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  • Interactions of Economics of Science and Science Education: Investigating the Implications for Science Teaching and Learning.Sibel Erduran & Ebru Z. Mugaloglu - 2013 - Science & Education 22 (10):2405-2425.
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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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  • The Concepts of Heat and Temperature: The Problem of Determining the Content for the Construction of an Historical Case Study which is Sensitive to Nature of Science Issues and Teaching–Learning Issues.K. C. de Berg - 2008 - Science & Education 17 (1):75-114.
    Historical case studies of scientific concepts are a useful medium for showing how scientific ideas originate and how they change over time. They are thus a useful tool for conveying knowledge about the nature of science. This paper focuses on the concepts of heat and temperature and discusses some issues related to choosing the content for a historical case study which incorporates not only nature of science perspectives but understandings related to what we know about the teaching and learning of (...)
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  • Chemical laws and theories: A response to Vihalemm. [REVIEW]John R. Christie & Maureen Christie - 2003 - Foundations of Chemistry 5 (2):165-174.
    A recent article by Vihalemm (Foundations of Chemistry, 2003) is critical of an earlier essay. We find that there is some justification for his criticism of vagueness in defining terms. Nevertheless the main conclusions of the earlier work, when carefully restated to deflect Vihalemm’s criticisms, are unaffected by his arguments. The various dicta that are used as the bases of chemical explanations are different in character, and are used in a different way from the laws and theories in classical physics.
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