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  1. (1 other version)The Clock Paradox: Luise Lange's Discussion.Andrea Reichenberger - 2018 - In David Hommen Alexander Christian & Alexander Christian (eds.), Philosophy of Science - Between the Natural Sciences, the Social Sciences, and the Humanities. Selected Papers from the 2016 conference of the German Society of Philosophy of Science. pp. 55-61.
    In her articles on the clock paradox and the relativity of time Luise Lange (1891–1978) defends the theory of relativity against philosophical refutations, by showing that the apparent clock paradox is not a paradox, but merely conflicts with common sense and is based on a misunderstanding of the theory. The following study explores, contextualizes and analyzes Lange’s clear and sophisticated contribution to the debate on the clock paradox for the first time.
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  • ‘Physics is a kind of metaphysics’: Émile Meyerson and Einstein’s late rationalistic realism.Marco Giovanelli - 2018 - European Journal for Philosophy of Science 8 (3):783-829.
    Gerald Holton has famously described Einstein’s career as a philosophical “pilgrimage”. Starting on “the historic ground” of Machian positivism and phenomenalism, following the completion of general relativity in late 1915, Einstein’s philosophy endured (a) a speculative turn: physical theorizing appears as ultimately a “pure mathematical construction” guided by faith in the simplicity of nature and (b) a realistic turn: science is “nothing more than a refinement ”of the everyday belief in the existence of mind-independent physical reality. Nevertheless, Einstein’s mathematical constructivism (...)
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  • Einstein dynamics without special-relativistic kinematics.J. P. Wesley - 1980 - Foundations of Physics 10 (5-6):503-511.
    The Michelson-Morley result is described empirically by generalized Doppler equations. If the phase of a light wave is not invariant, in agreement with the quantum nature of light, special-relativistic kinematics need not be assumed. Einstein particle dynamics and Maxwell-Lorentz electrodynamics in a moving system are derived without assuming special-relativistic kinematics. An alternative explanation for the decay rate of moving radioactive particles is presented. The observation of a third-order Doppler effect may yield the velocity of the closed laboratory.
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  • The twin paradoxes of special relativity: Their resolution and implications. [REVIEW]S. J. Prkhovnik - 1989 - Foundations of Physics 19 (5):541-552.
    The resolution of the Langevin paradox for an out-and-return journey gives rise to a result which appears to violate the underlying basis of special relativity. The resolution of this second paradox, due to G. Builder, leads to a physically-intelligible interpretation of Einstein's theory and reconciles it with the cosmologically-based fundamental reference frame revealed by modern astronomy.
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