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Steps Toward a Computational Metaphysics
Journal of Philosophical Logic 36 (2):227-247 (2007)
Abstract
In this paper, the authors describe their initial investigations in computational metaphysics. Our method is to implement axiomatic metaphysics in an automated reasoning system. In this paper, we describe what we have discovered when the theory of abstract objects is implemented in PROVER9 (a first-order automated reasoning system which is the successor to OTTER). After reviewing the second-order, axiomatic theory of abstract objects, we show (1) how to represent a fragment of that theory in PROVER9's first-order syntax, and (2) how PROVER9 then finds proofs of interesting theorems of metaphysics, such as that every possible world is maximal. We conclude the paper by discussing some issues for further research.Author Profiles
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Citations of this work
A computationally-discovered simplification of the ontological argument.Paul Oppenheimer & Edward N. Zalta - 2011 - Australasian Journal of Philosophy 89 (2):333 - 349.
Computer Science and Metaphysics: A Cross-Fertilization.Edward N. Zalta, Christoph Benzmüller & Daniel Kirchner - 2019 - Open Philosophy 2 (1):230-251.
Computer verification for historians of philosophy.Landon D. C. Elkind - 2022 - Synthese 200 (3):1-28.
Relations vs functions at the foundations of logic: type-theoretic considerations.Paul E. Oppenheimer & Edward N. Zalta - 2011 - Journal of Logic and Computation 21:351-374.
References found in this work
Abstract Objects: An Introduction to Axiomatic Metaphysics.Edward N. Zalta - 1983 - Dordrecht, Netherland: D. Reidel.
A critical exposition of the philosophy of Leibniz.Bertrand Russell - 1937 - Wolfeboro, N.H.: Longwood Press.
Philosophy of mathematics and mathematical practice in the seventeenth century.Paolo Mancosu (ed.) - 1996 - New York: Oxford University Press.
In defense of the simplest quantified modal logic.Bernard Linsky & Edward N. Zalta - 1994 - Philosophical Perspectives 8:431-458.
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