Applying models in fluid dynamics

International Studies in the Philosophy of Science 20 (1):49 – 67 (2006)
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Abstract

The following article treats the 'applicational turn' of modern fluid dynamics as it set in at the beginning of the 20th century with Ludwig Prandtl's concept of the boundary layer. It seeks to show that there is much more to applying a theory in a highly mathematical field like fluid dynamics than deriving a special case from a general explanatory theory under particular antecedent conditions. In Prandtl's case, the decisive move was to introduce a model that provided a physical/causal conception of viscous flow at high Reynolds numbers. It facilitated an approximate solution to the Navier-Stokes equations, which in turn gave rise to many special applications. After a detailed account of Prandtl's achievement, the article discusses the role of the physical model and its experimental and mathematical significance. It is shown that the mathematical simplification provided by the physical model greatly expanded the explanatory capacity of the theory which the Navier-Stokes equations alone could not provide.

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10.1080/02698590600641016

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Michael Heidelberger
University Tübingen

Citations of this work

Towards a general model of applying science.Rens Bod - 2006 - International Studies in the Philosophy of Science 20 (1):5 – 25.
Models of machines and models of phenomena.Susan G. Sterrett - 2004 - International Studies in the Philosophy of Science 20 (1):69 – 80.

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References found in this work

The Structure of Scientific Revolutions.Thomas Samuel Kuhn - 1962 - Chicago: University of Chicago Press. Edited by Otto Neurath.
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How the laws of physics lie.Nancy Cartwright - 1983 - New York: Oxford University Press.
Thinking about mechanisms.Peter Machamer, Lindley Darden & Carl F. Craver - 2000 - Philosophy of Science 67 (1):1-25.

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