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Fundamental measurement of force and Newton's first and second laws of motion
Philosophy of Science 40 (4):481-495 (1973)
Abstract
The measurement of force is based on a formal law of additivity, which characterizes the effects of two or more configurations on the equilibrium of a material point. The representing vectors (resultant forces) are additive over configurations. The existence of a tight interrelation between the force vector and the geometric space, in which motion is described, depends on observations of partial (directional) equilibria; an axiomatization of this interrelation yields a proof of part two of Newton's second law of motion. The present results (which were derived from a curious and deep isomorphism between force measurement and trichromatic color measurement) yield a kind of subunit, which needs to be incorporated into more complete axiomatizations of mechanics that would fulfill the Mach-Kirchhoff programMy notes
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Citations of this work
The Composition of Forces.Olivier Massin - 2017 - British Journal for the Philosophy of Science 68 (3):805-846.
Faithful representation, physical extensive measurement theory and archimedean axioms.Brent Mundy - 1987 - Synthese 70 (3):373 - 400.
Conceptual Problems in the Foundations of Mechanics.Ricardo Lopes Coelho - 2012 - Science & Education 21 (9):1337-1356.
References found in this work
Concepts of Force: A Study in the Foundations of Dynamics.Max Jammer - 1957 - British Journal for the Philosophy of Science 10 (37):69-73.
The axiomatization of physical theories.Herbert A. Simon - 1970 - Philosophy of Science 37 (1):16-26.
A "fundamental" axiomatization of multiplicative power among three variables.R. Duncan Luce - 1965 - Philosophy of Science 32 (3/4):301.
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