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The heuristic function of mathematics in physics and astronomy
Foundations of Science 14 (4):351-360 (2009)
Abstract
This paper considers the role of mathematics in the process of acquiring new knowledge in physics and astronomy. The defining of the notions of continuum and discreteness in mathematics and the natural sciences is examined. The basic forms of representing the heuristic function of mathematics at theoretical and empirical levels of knowledge are studied: deducing consequences from the axiomatic system of theory, the method of generating mathematical hypotheses, “pure” proofs for the existence of objects and processes, mathematical modelling, the formation of mathematics on the basis of internal mathematical principles and the mathematical theory of experiment.Other Versions
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Citations of this work
Fishbones, Wheels, Eyes, and Butterflies: Heuristic Structural Reasoning in the Search for Solutions to the Navier-Stokes Equations.Lydia Patton - 2023 - In Lydia Patton & Erik Curiel, Working Toward Solutions in Fluid Dynamics and Astrophysics: What the Equations Don’t Say. Springer Verlag. pp. 57-78.
References found in this work
Objectivity, value judgment, and theory choice.Thomas S. Kuhn - 1981 - In David Zaret, Review of Thomas S. Kuhn The Essential Tension: Selected Studies in Scientific Tradition and Change. Duke University Press. pp. 320--39.
The best explanation: Criteria for theory choice.Paul R. Thagard - 1978 - Journal of Philosophy 75 (2):76-92.
Mathematics: The Loss of Certainty.Morris Kline - 1982 - New York, NY, USA: Oxford University Press USA.
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