Abstract
This essay presents a model of a scientific field, as constituted by a domain of objective phenomena and a community of practitioners, interfaced by laboratory instrumentation and machinery. The relations between items in the domain, as well as those between the cognitive tools (concepts, statements, problems, classifications) that shape the practices of the community are postulated to be relations of exteriority, that is, relations that do not determine the identity of what they relate. This move allows the model to avoid holism. The essay then goes on to contrast the proposed model with Kuhn holistic theory of paradigms to highlight its advantages.
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References
Bernthsen, A.: A Textbook of Organic Chemistry, p. 30, 42, 49, 54, 66, 82, 86, 121, 140. D. Van Nostrand, New York (1912)
DeLanda, M.: A New Philosophy of Society, Ch 2. Continuum, London (2006)
DeLanda, M.: Philosophical Chemistry. Bloomsbury, London (2015)
Dolby, R.G.A.: Debates Over the Theory of Solution: A Study of Dissent in Physical Chemistry in the English-Speaking World in the Late Nineteenth and Early Twentieth Centuries. Historical Studies in the Physical Sciences, vol. 7, p. 322. University of California Press, Berkeley (1976)
Earley, J.E.: Why there is no salt in the sea. In: Foundations of Chemistry, vol. 7, pp. 85–102. Springer, Amsterdam (2005)
Hacking, I.: Representing and Intervening, pp. 224–228. Cambridge University Press, Cambridge (1983)
Kim, M.G.: Affinity, That Elusive Dream. A Genealogy of the Chemical Revolution, p. 191. The MIT Press, Cambridge (2003a)
Kim, M.G.: Affinity, That Elusive Dream. A Genealogy of the Chemical Revolution, pp. 338–339. The MIT Press, Cambridge (2003b)
Kirkham, R.L.: Theories of Truth, pp. 20–31. MIT Press, Cambridge (1992)
Kitcher, P.: The Advancement of Science. Science without Legend, Objectivity without Illusions, pp. 74–86. Oxford University Press, New York (1993)
Klein, U.: Experiments, Models, and Paper Tools, p. 205. Stanford University Press, Stanford (2003)
Klein, U., Lefévre, W.: Materials in Eighteenth-Century Science. A Historical Ontology, p. 16. MIT Press, Cambridge (2007)
Kuhn, T.S.: The Structure of Scientific Revolutions, p. 132. The University of Chicago Press, Chicago (1970)
Murray, J.: A System of Chemistry, vol. I, p. 72. Longman, Hurst & Rees, Edinburgh (1806)
Putnam, H.: The meaning of “Meaning”. In: Mind, Language, and Reality, pp. 227–228. Cambridge University Press, London (1979)
Ramberg, P.J.: Chemical Structure, Spatial Arrangement. The Early History of Stereochemistry 1874–1914, p. 243. Ashgate, Aldershot (2003)
Scerri, E.R.: The Periodic Table. Its Story and Its Significance, pp. 126–130. Oxford University Press, Oxford (2007)
Shapere, D.: Scientific theories and their domains. In: Suppe, F. (ed.) The Structure of Scientific Theories, p. 518. University of Illinois Press, Chicago (1977)
Siegfried, R.: From Elements to Atoms. A History of Chemical Composition, p. 87. American Philosophical Society, Philadelphia (2002)
Wurtz, A.C.: An Introduction to Chemical Philosophy According to the Modern Theories, p. 106. J.H. Dutton, London (1867)
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DeLanda, M. Realism and the history of chemistry. Found Chem 19, 5–15 (2017). https://doi.org/10.1007/s10698-017-9274-7
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DOI: https://doi.org/10.1007/s10698-017-9274-7