Understanding thermodynamic singularities: Phase transitions, data, and phenomena

Philosophy of Science 76 (4):488-505 (2009)
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Abstract

According to standard (quantum) statistical mechanics, the phenomenon of a phase transition, as described in classical thermodynamics, cannot be derived unless one assumes that the system under study is infinite. This is naturally puzzling since real systems are composed of a finite number of particles; consequently, a well‐known reaction to this problem was to urge that the thermodynamic definition of phase transitions (in terms of singularities) should not be “taken seriously.” This article takes singularities seriously and analyzes their role by using the well‐known distinction between data and phenomena , in an attempt to better understand the origin of the puzzle. *Received April 2009; revised July 2009. †To contact the author, please write to: University of Cambridge, Department of History and Philosophy of Science, Free School Lane, Cambridge CB2 3RH, United Kingdom; e‐mail: [email protected].

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10.1086/648601

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Sorin Bangu
University of Bergen

Citations of this work

Emergent Physics and Micro-Ontology.Margaret Morrison - 2012 - Philosophy of Science 79 (1):141-166.
Infinite idealizations in physics.Elay Shech - 2018 - Philosophy Compass 13 (9):e12514.
What Is the Paradox of Phase Transitions?Elay Shech - 2013 - Philosophy of Science 80 (5):1170-1181.

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References found in this work

On the explanatory role of mathematics in empirical science.Robert W. Batterman - 2010 - British Journal for the Philosophy of Science 61 (1):1-25.
Reductionism in Biology: Prospects and Problems.Kenneth F. Schaffner - 1974 - PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association 1974:613 - 632.

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