Redefining revolutions

In Moti Mizrahi (ed.), The Kuhnian Image of Science: Time for a Decisive Transformation? London: Rowman & Littlefield. pp. 133–154 (2017)
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Abstract

In their account of theory change in logic, Aberdein and Read distinguish 'glorious' from 'inglorious' revolutions--only the former preserves all 'the key components of a theory' [1]. A widespread view, expressed in these terms, is that empirical science characteristically exhibits inglorious revolutions but that revolutions in mathematics are at most glorious [2]. Here are three possible responses: 0. Accept that empirical science and mathematics are methodologically discontinuous; 1. Argue that mathematics can exhibit inglorious revolutions; 2. Deny that inglorious revolutions are characteristic of science. Where Aberdein and Read take option 1, option 2 is preferred by Mizrahi [3]. This paper seeks to resolve this disagreement through consideration of some putative mathematical revolutions. [1] Andrew Aberdein and Stephen Read, The philosophy of alternative logics, The Development of Modern Logic (Leila Haaparanta, ed.), Oxford University Press, Oxford, 2009, pp. 613-723. [2] Donald Gillies (ed.), Revolutions in Mathematics, Oxford University Press, Oxford, 1992. [3] Moti Mizrahi, Kuhn's incommensurability thesis: What's the argument?, Social Epistemology 29 (2015), no. 4, 361-378.

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Andrew Aberdein
Florida Institute of Technology

Citations of this work

Deep Disagreement in Mathematics.Andrew Aberdein - 2023 - Global Philosophy 33 (1):1-27.
What Is the Basic Unit of Scientific Progress? A Quantitative, Corpus-Based Study.Moti Mizrahi - 2022 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 53 (4):441-458.

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References found in this work

The Advancement of Science: Science without Legend, Objectivity without Illusions.Philip Kitcher - 1994 - British Journal for the Philosophy of Science 45 (3):929-932.
Revolutions in mathematics.Donald Gillies (ed.) - 1992 - New York: Oxford University Press.

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