A Similarity-based Approach Of Kuhn’s No-overlap Principle And Anomalies

Studies in History and Philosophy of Science Part A 44 (3):330-338 (2013)
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Abstract

In their book Cognitive Structure of Scientific Revolutions, Hanne Andersen, Peter Barker, and Xiang Chen reconstruct Kuhn’s account of conceptual structure and change, based on the dynamic frame model. I argue against their reconstruction of anomalies and of the no-overlap principle and propose a competing model, based on the similarity relation. First, I introduce the concept of psychological distance between objects, and then I show that the conceptual structure of a theory consists of a set of natural families, separated by a significant empty space. I argue that, in such a conceptual structure, the ES condition, according to which the distance between natural families should be greater than the distance between any two objects belonging to the same natural family, is satisfied. Anomalous objects lead to the violation of this condition. I argue that in a conceptual structure satisfying the ES condition, a similarity relation could be defined, so that natural families would be similarity classes, satisfying the no-overlap principle. In a structure not satisfying this principle, such similarity classes could not be delimited.

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10.1016/j.shpsa.2013.04.003

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Features of similarity.Amos Tversky - 1977 - Psychological Review 84 (4):327-352.
Concepts are not a natural kind.Edouard Machery - 2005 - Philosophy of Science 72 (3):444-467.
Kuhn, conceptual change, and cognitive science.Nancy Nersessian - 2003 - In Tom Nickles (ed.), Thomas Kuhn. Cambridge University Press. pp. 179-211.
The role of theories in conceptual coherence.G. L. Murphy & D. L. Medin - 1999 - In Eric Margolis & Stephen Laurence (eds.), Concepts: Core Readings. MIT Press. pp. 289--316.

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