Diagrams in the theory of differential equations (eighteenth to nineteenth centuries)

Synthese 186 (1):257-288 (2012)
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Abstract

Diagrams have played an important role throughout the entire history of differential equations. Geometrical intuition, visual thinking, experimentation on diagrams, conceptions of algorithms and instruments to construct these diagrams, heuristic proofs based on diagrams, have interacted with the development of analytical abstract theories. We aim to analyze these interactions during the two centuries the classical theory of differential equations was developed. They are intimately connected to the difficulties faced in defining what the solution of a differential equation is and in describing the global behavior of such a solution.

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10.1007/s11229-012-0069-z

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Citations of this work

Imagination in mathematics.Andrew Arana - 2016 - In Amy Kind (ed.), The Routledge Handbook of the Philosophy of Imagination. New York: Routledge. pp. 463-477.
Drawing on the imagination: The limits of illustrated figures in nineteenth-century geometry.Jemma Lorenat - 2020 - Studies in History and Philosophy of Science Part A 82:75-87.

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References found in this work

The Euclidean Diagram.Kenneth Manders - 2008 - In Paolo Mancosu (ed.), The Philosophy of Mathematical Practice. Oxford University Press. pp. 80--133.
Proofs, pictures, and Euclid.John Mumma - 2010 - Synthese 175 (2):255 - 287.
Visualization in Logic and Mathematics.Paolo Mancosu - 2005 - In Paolo Mancosu, Klaus Frovin Jørgensen & S. A. Pedersen (eds.), Visualization, Explanation and Reasoning Styles in Mathematics. Springer. pp. 13-26.
Epistemology of visual thinking in elementary real analysis.Marcus Giaquinto - 1994 - British Journal for the Philosophy of Science 45 (3):789-813.

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