The atomic number revolution in chemistry: a Kuhnian analysis

Foundations of Chemistry 20 (3):209-217 (2017)
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Abstract

This paper argues that the field of chemistry underwent a significant change of theory in the early twentieth century, when atomic number replaced atomic weight as the principle for ordering and identifying the chemical elements. It is a classic case of a Kuhnian revolution. In the process of addressing anomalies, chemists who were trained to see elements as defined by their atomic weight discovered that their theoretical assumptions were impediments to understanding the chemical world. The only way to normalize the anomalies was to introduce new concepts, and a new conceptual understanding of what it is to be an element. In the process of making these changes, a new scientific lexicon emerged, one that took atomic number to be the defining feature of a chemical element.

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2018

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10.1007/s10698-017-9303-6

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K. Brad Wray
Aarhus University

Citations of this work

On Chemical Natural Kinds.Eric R. Scerri - 2020 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 51 (3):427-445.

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References found in this work

Kuhn's Evolutionary Social Epistemology.K. Brad Wray - 2011 - Cambridge, UK: Cambridge University Press.
The Periodic Table, Its Story and Its Significance.Eric R. Scerri - 2007 - New York, Oxford: Oxford University Press.
Normal science and its dangers.Karl Popper - 1970 - In Imre Lakatos & Alan Musgrave (eds.), Criticism and the growth of knowledge. Cambridge [Eng.]: Cambridge University Press. pp. 51--8.
Science and Subjectivity.Israel Scheffler - 1968 - British Journal for the Philosophy of Science 19 (2):176-177.
Prediction and the periodic table.Eric R. Scerri & John Worrall - 2001 - Studies in History and Philosophy of Science Part A 32 (3):407-452.

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