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  1. Data and phenomena.James Woodward - 1989 - Synthese 79 (3):393 - 472.
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  • On the Possibility of Feminist Philosophy of Physics.Maralee Harrell - 2016 - In Maria Cristina Amoretti & Nicla Vassallo (eds.), Meta-Philosophical Reflection on Feminist Philosophies of Science. Cham: Imprint: Springer. pp. 15-34.
    The dynamic nature of physics cannot be captured through an exclusive focus on the static mathematical formulations of physical theories. Instead, we can more fruitfully think of physics as a set of distinctively social, cognitive, and theoretical/methodological practices. An emphasis on practice has been one of the most notable aspects of the recent “naturalistic turn” in general philosophy of science, in no small part due to the arguments of many feminist philosophers of science. A major project of feminist philosophy of (...)
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  • Nothing but coincidences: the point-coincidence and Einstein’s struggle with the meaning of coordinates in physics.Marco Giovanelli - 2021 - European Journal for Philosophy of Science 11 (2):1-64.
    In his 1916 review paper on general relativity, Einstein made the often-quoted oracular remark that all physical measurements amount to a determination of coincidences, like the coincidence of a pointer with a mark on a scale. This argument, which was meant to express the requirement of general covariance, immediately gained great resonance. Philosophers such as Schlick found that it expressed the novelty of general relativity, but the mathematician Kretschmann deemed it as trivial and valid in all spacetime theories. With the (...)
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  • Einstein's redshift derivations: its history from 1907 to 1921.Mario Bacelar Valente - 2018 - Circumscribere: International Journal for the History of Science 22:1-16.
    Einstein's gravitational redshift derivation in his famous 1916 paper on general relativity seems to be problematic, being mired in what looks like conceptual difficulties or at least contradictions or gaps in his exposition. Was this derivation a blunder? To answer this question, we will consider Einstein’s redshift derivations from his first one in 1907 to the 1921 derivation made in his Princeton lectures on relativity. This will enable to see the unfolding of an interdependent network of concepts and heuristic derivations (...)
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  • The Gatekeepers of Modern Physics: Periodicals and Peer Review in 1920s Britain.Imogen Clarke - 2015 - Isis 106 (1):70-93.
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  • (1 other version)Talking at cross-purposes: how Einstein and the logical empiricists never agreed on what they were disagreeing about.Marco Giovanelli - 2013 - Synthese 190 (17):3819-3863.
    By inserting the dialogue between Einstein, Schlick and Reichenbach into a wider network of debates about the epistemology of geometry, this paper shows that not only did Einstein and Logical Empiricists come to disagree about the role, principled or provisional, played by rods and clocks in General Relativity, but also that in their lifelong interchange, they never clearly identified the problem they were discussing. Einstein’s reflections on geometry can be understood only in the context of his ”measuring rod objection” against (...)
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  • 'No success like failure ...': Einstein's Quest for general relativity, 1907-1920.Michel Janssen - unknown
    This is the chapter on general relativity for the Cambridge Companion to Einstein which I am co-editing with Christoph Lehner.
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  • Forever is a day: Supertasks in Pitowsky and Malament-Hogarth spacetimes.John Earman & John D. Norton - 1993 - Philosophy of Science 60 (1):22-42.
    The standard theory of computation excludes computations whose completion requires an infinite number of steps. Malament-Hogarth spacetimes admit observers whose pasts contain entire future-directed, timelike half-curves of infinite proper length. We investigate the physical properties of these spacetimes and ask whether they and other spacetimes allow the observer to know the outcome of a computation with infinitely many steps.
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  • Mesh and measure in early general relativity.Olivier Darrigol - 2015 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 52 (Part B):163-187.
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  • Perverted Space-Time Geodesy in Einstein’s Views on Geometry.Mario Bacelar Valente - 2018 - Philosophia Scientiae 22:137-162.
    Une géodésie spatio-temporelle pervertie résulte des notions de règles et d’horloges variables, qui sont prises pour avoir leur longueur et leur rythme affectés par le champ gravitationnel. D’autre part ce que nous pourrions appeler une géodésie concrète repose sur les notions de règles et d’horloges invariables de mesure d’unité. En fait, il s’agit d’une hypothèse de base de la relativité générale. Les règles et les horloges variables conduisent à une géodésie pervertie dans le sens où un espace-temps courbe pourrait être (...)
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  • Einstein's attitude towards experiments: Testing relativity theory 1907–1927.Klaus Hentschel - 1991 - Studies in History and Philosophy of Science Part A 23 (4):593-624.
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  • Trajectoires et Impasses de la Solution de Schwarzschild.J. Eisenstaedt - 1987 - Archive for History of Exact Sciences 37 (4):275-357.
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  • The Reaction to Relativity Theory I: The Anti-Einstein Campaign in Germany in 1920.Hubert Goenner - 1993 - Science in Context 6 (1):107-133.
    The ArgumentDevelopments in theoretical physics, even when they are revolutionary for physics, usually donotenter public awareness. The reaction to the special relativity theory is one of the few exceptions. The conceptual changes brought by special relativity to our notions of space and time, induced a lively debate not only within intellectual circles but in many strata of the educated middle class. In this article, I focus on a particular moment of public reaction to special and general relativity theory and to (...)
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  • Measurements of gravitational redshift between 1959 and 1971.Klaus Hentschel - 1996 - Annals of Science 53 (3):269-295.
    The paper presents and discusses measurements of gravitational redshift made between 1959 and 1971 by Pound and Rebka, Schiffer and Marshall, Brault, Blamont and Roddier, and finally by Snider. It emphasizes the importance of new measurement techniques such as wavelength modulation, electronic amplification, and scattering of atomic beams to the emergence of new tests of Einstein's GRS prediction, which were perceived by the scientific community as the first ‘clean’ verifications of GRS. In particular, the race to be the first to (...)
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  • Dark Bodies and Black Holes, Magic Circles and Montgolfiers: Light and Gravitation from Newton to Einstein.Jean Eisenstaedt - 1993 - Science in Context 6 (1):83-106.
    The ArgumentThe question of the possible existence of black holes is closely related to the question of the action of gravitation on the propagation of light. It has been raised recurrently from the when that Newton referred to a possible bending of light in hisOpticks. And it relies on apparently simple questions: Is light subject to gravitation? What is the effect of a gravitational field on the propagation of light? Could a particle of light emitted by a star be retained (...)
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  • Grebe/Bachems photometrische Analyse der Linienprofile und die Gravitations-Rotverschiebung: 1919 bis 1922.Klaus Hentschel - 1992 - Annals of Science 49 (1):21-46.
    An effort of proponents of relativity theory to find evidence for the so-called gravitational red-shift of spectral lines as one of the experimental consequences of Einstein's generalized theory of relativity is reconsidered with reference to hitherto unpublished documents. It is shown how much interest Albert Einstein in fact took, around 1920, in the data analysis of Leonhard Grebe and Albert Bachem, who tried to explain why most earlier efforts to find the gravitational red-shift had failed. They carefully measured the line (...)
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