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  1. The equivalence of mass and energy.Francisco Flores - forthcoming - Stanford Encyclopedia of Philosophy.
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  • Identity Metaphysics.Galen Strawson - 2021 - The Monist 104 (1):60-90.
    Identity metaphysics finds identity or unity where other metaphysical theories find difference or diversity. It denies the fundamentality of ontological distinctions that other theories treat as fundamental. It’s opposed to separatism, which mistakes natural conceptual distinctions for ground-floor ontological differences. It proposes that the distinctions between the concepts substance, object, quality, property, process, state, and event are metaphysically superficial; so too the distinctions between the concepts energy, lawsofnature, force, causation, power, and naturalnecessity. So too the distinction between these two sets (...)
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  • On the ontology of particle mass and energy in special relativity.Kevin Coffey - 2020 - Synthese 198 (11):10817-10846.
    Einstein claimed that the fundamental dynamical insight of special relativity was the equivalence of mass and energy. I disagree. Not only are mass and energy not equivalent but talk of such equivalence obscures the real dynamical insight of special relativity, which concerns the nature of 4-forces and interactions more generally. In this paper I present and defend a new ontology of special relativistic particle dynamics that makes this insight perspicuous and I explain how alleged cases of mass–energy conversion can be (...)
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  • Selective Realism and the Framework/Interaction Distinction: A Taxonomy of Fundamental Physical Theories.Federico Benitez - 2019 - Foundations of Physics 49 (7):700-716.
    Following the proposal of a new kind of selective structural realism that uses as a basis the distinction between framework and interaction theories, this work discusses relevant applications in fundamental physics. An ontology for the different entities and properties of well-known theories is thus consistently built. The case of classical field theories—including general relativity as a classical theory of gravitation—is examined in detail, as well as the implications of the classification scheme for issues of realism in quantum mechanics. These applications (...)
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  • A Proposal for a Coherent Ontology of Fundamental Entities.Diego Romero-Maltrana, Federico Benitez & Cristian Soto - 2018 - Foundations of Science 23 (4):705-717.
    We argue that the distinction between framework and interaction theories should be taken carefully into consideration when dealing with the philosophical implications of fundamental theories in physics. In particular, conclusions concerning the nature of reality can only be consistently derived from assessing the ontological and epistemic purport of both types of theories. We put forward an epistemic form of realism regarding framework theories, such as Quantum Field Theory. The latter, indeed, informs us about the general properties of quantum fields, laying (...)
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  • General relativity as a hybrid theory: The genesis of Einstein's work on the problem of motion.Dennis Lehmkuhl - 2019 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 67:176-190.
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  • The Silence of Physics.Barry Dainton - 2021 - Erkenntnis 88 (5):2207-2241.
    Although many find it hard to believe that every physical thing—no matter how simple or small—involves some form of consciousness, panpsychists offer the reassurance that their claims are perfectly compatible with everything physics has to say about the physical world. This is because although physics has a lot to say about causal and structural properties it has nothing to say about the intrinsic natures of physical things, and if physics is silent in this regard it is perfectly possible that everything (...)
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  • (Re)interpreting E=mc².Federico Benitez, Diego Romero-Maltrana & Pablo Razeto-Barry - 2022 - Foundations of Physics 52 (1):1-19.
    We propose a new interpretation of the equation E=mc² in special relativity by generalizing ideas of ontological emergence to fundamental physics. This allows us to propose that mass, as a property, can be considered to emerge from energy, using a well-known definition of weak ontological emergence. Einstein’s famous equation gains in this way a clearer philosophical interpretation, one that avoids the problems of previous attempts, and is fully consistent with the kinematic properties of special relativity, while yielding fresh insights concerning (...)
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  • Interpretations of Einstein’s Equation E = mc 2.Francisco Flores - 2005 - International Studies in the Philosophy of Science 19 (3):245-260.
    Interpretations of Einstein’s equation differ primarily concerning whether E = mc2 entails that mass and energy are the same property of physical systems, and hence whether there is any sense in which mass is ever ‘converted’ into energy. In this paper, I examine six interpretations of Einstein’s equation and argue that all but one fail to satisfy a minimal set of conditions that all interpretations of physical theories ought to satisfy. I argue that we should prefer the interpretation of Einstein’s (...)
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  • The Mass of the Gravitational Field.Charles T. Sebens - 2022 - British Journal for the Philosophy of Science 73 (1):211-248.
    By mass-energy equivalence, the gravitational field has a relativistic mass density proportional to its energy density. I seek to better understand this mass of the gravitational field by asking whether it plays three traditional roles of mass: the role in conservation of mass, the inertial role, and the role as source for gravitation. The difficult case of general relativity is compared to the more straightforward cases of Newtonian gravity and electromagnetism by way of gravitoelectromagnetism, an intermediate theory of gravity that (...)
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  • Forces on fields.Charles T. Sebens - 2018 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 63:1-11.
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  • Mass‐energy‐momentum: Only there because of spacetime.Dennis Lehmkuhl - 2011 - British Journal for the Philosophy of Science 62 (3):453-488.
    I describe how relativistic field theory generalizes the paradigm property of material systems, the possession of mass, to the requirement that they have a mass–energy–momentum density tensor T µ associated with them. I argue that T µ does not represent an intrinsic property of matter. For it will become evident that the definition of T µ depends on the metric field g µ in a variety of ways. Accordingly, since g µ represents the geometry of spacetime itself, the properties of (...)
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