Causation and the conservation of energy in general relativity

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The British Journal for the Philosophy of Science (forthcoming)
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Abstract

Consensus in the contemporary philosophical literature has it that conserved quantity theories of causation such as that of Dowe [2000]—according to which causation is to be analysed in terms of the exchange of conserved quantities (e.g., energy)—face damning problems when confronted with contemporary physics, where the notion of conservation becomes delicate. In particular, in general relativity it is often claimed that there simply are no conservation laws for (say) total-stress energy. If this claim is correct, it is difficult to see how conserved quantity theories of causation could survive. In this article, we resist the above consensus and defend conserved quantity theories from this conclusion, at least when focusing on the apparent problems posed by general relativity. We argue that this approach to causation can continue to be defended in general relativity, once one appreciates (a) the availability of approximate symmetries in generic general relativistic spacetimes, and (b) the role of modelling and idealisation in that theory. Given these points, conserved quantity theories of causation must stand or fall on other grounds.

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10.1086/727030

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Author Profiles

Andrés Páez
University of the Andes
James Read
Oxford University
Sebastián Murgueitio Ramírez
Purdue University

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References found in this work

Physical Causation.Phil Dowe - 2003 - Philosophy and Phenomenological Research 67 (1):244-248.
Fundamental and Emergent Geometry in Newtonian Physics.David Wallace - 2020 - British Journal for the Philosophy of Science 71 (1):1-32.
Who's afraid of coordinate systems? An essay on representation of spacetime structure.David Wallace - 2019 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 67:125-136.
Functional Gravitational Energy.James Read - 2018 - British Journal for the Philosophy of Science 71 (1):205-232.

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