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  1. Models of second-order zermelo set theory.Gabriel Uzquiano - 1999 - Bulletin of Symbolic Logic 5 (3):289-302.
    In [12], Ernst Zermelo described a succession of models for the axioms of set theory as initial segments of a cumulative hierarchy of levelsUαVα. The recursive definition of theVα's is:Thus, a little reflection on the axioms of Zermelo-Fraenkel set theory shows thatVω, the first transfinite level of the hierarchy, is a model of all the axioms ofZFwith the exception of the axiom of infinity. And, in general, one finds that ifκis a strongly inaccessible ordinal, thenVκis a model of all of (...)
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  • The concept of strong and weak virtual reality.Andreas Martin Lisewski - 2006 - Minds and Machines 16 (2):201-219.
    We approach the virtual reality phenomenon by studying its relationship to set theory. This approach offers a characterization of virtual reality in set theoretic terms, and we investigate the case where this is done using the wellfoundedness property. Our hypothesis is that non-wellfounded sets (so-called hypersets) give rise to a different quality of virtual reality than do familiar wellfounded sets. To elaborate this hypothesis, we describe virtual reality through Sommerhoff’s categories of first- and second-order self-awareness; introduced as necessary conditions for (...)
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  • (1 other version)The empty set, the Singleton, and the ordered pair.Akihiro Kanamori - 2003 - Bulletin of Symbolic Logic 9 (3):273-298.
    For the modern set theorist the empty set Ø, the singleton {a}, and the ordered pair 〈x, y〉 are at the beginning of the systematic, axiomatic development of set theory, both as a field of mathematics and as a unifying framework for ongoing mathematics. These notions are the simplest building locks in the abstract, generative conception of sets advanced by the initial axiomatization of Ernst Zermelo [1908a] and are quickly assimilated long before the complexities of Power Set, Replacement, and Choice (...)
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  • Ontology, Set Theory, and the Paraphrase Challenge.Jared Warren - 2021 - Journal of Philosophical Logic 50 (6):1231-1248.
    In many ontological debates there is a familiar challenge. Consider a debate over X s. The “small” or anti-X side tries to show that they can paraphrase the pro-X or “big” side’s claims without any loss of expressive power. Typically though, when the big side adds whatever resources the small side used in their paraphrase, the symmetry breaks down. The big side plus small’s resources is a more expressively powerful and thus more theoretically fruitful theory. In this paper, I show (...)
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  • Mathematical foundations of consciousness.Willard L. Miranker & Gregg J. Zuckerman - 2009 - Journal of Applied Logic 7 (4):421-440.
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  • A formalization of the theory of sets from the point of view of combinatory logic.Edward J. Cogan - 1955 - Mathematical Logic Quarterly 1 (3):198-240.
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  • The mathematical import of zermelo's well-ordering theorem.Akihiro Kanamori - 1997 - Bulletin of Symbolic Logic 3 (3):281-311.
    Set theory, it has been contended, developed from its beginnings through a progression ofmathematicalmoves, despite being intertwined with pronounced metaphysical attitudes and exaggerated foundational claims that have been held on its behalf. In this paper, the seminal results of set theory are woven together in terms of a unifying mathematical motif, one whose transmutations serve to illuminate the historical development of the subject. The motif is foreshadowed in Cantor's diagonal proof, and emerges in the interstices of the inclusion vs. membership (...)
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  • On modal μ-calculus and non-well-founded set theory.Luca Alberucci & Vincenzo Salipante - 2004 - Journal of Philosophical Logic 33 (4):343-360.
    A finitary characterization for non-well-founded sets with finite transitive closure is established in terms of a greatest fixpoint formula of the modal μ-calculus. This generalizes the standard result in the literature where a finitary modal characterization is provided only for wellfounded sets with finite transitive closure. The proof relies on the concept of automaton, leading then to new interlinks between automata theory and non-well-founded sets.
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  • Bernays and the Completeness Theorem.Walter Dean - 2017 - Annals of the Japan Association for Philosophy of Science 25:45-55.
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  • Developing arithmetic in set theory without infinity: some historical remarks.Charles Parsons - 1987 - History and Philosophy of Logic 8 (2):201-213.
    In this paper some of the history of the development of arithmetic in set theory is traced, particularly with reference to the problem of avoiding the assumption of an infinite set. Although the standard method of singling out a sequence of sets to be the natural numbers goes back to Zermelo, its development was more tortuous than is generally believed. We consider the development in the light of three desiderata for a solution and argue that they can probably not all (...)
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  • Symmetry as a Criterion for Comprehension Motivating Quine’s ‘New Foundations’.M. Randall Holmes - 2008 - Studia Logica 88 (2):195-213.
    A common objection to Quine's set theory "New Foundations" is that it is inadequately motivated because the restriction on comprehension which appears to avert paradox is a syntactical trick. We present a semantic criterion for determining whether a class is a set which motivates NF.
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  • Bernays and set theory.Akihiro Kanamori - 2009 - Bulletin of Symbolic Logic 15 (1):43-69.
    We discuss the work of Paul Bernays in set theory, mainly his axiomatization and his use of classes but also his higher-order reflection principles.
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  • Incompleteness Via Paradox and Completeness.Walter Dean - 2020 - Review of Symbolic Logic 13 (3):541-592.
    This paper explores the relationship borne by the traditional paradoxes of set theory and semantics to formal incompleteness phenomena. A central tool is the application of the Arithmetized Completeness Theorem to systems of second-order arithmetic and set theory in which various “paradoxical notions” for first-order languages can be formalized. I will first discuss the setting in which this result was originally presented by Hilbert & Bernays (1939) and also how it was later adapted by Kreisel (1950) and Wang (1955) in (...)
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  • Graphes Extensionnels et Axiome D'universalité.Par Maurice Boffa - 1968 - Mathematical Logic Quarterly 14 (21-24):329-334.
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