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  1. Do We Perceive Reality?John Klasios - 2022 - arXiv.
    The cognitive scientist Donald Hoffman argues that we don't perceive reality: spacetime, objects, colors, sounds, tastes, and so forth, are all merely an interface that we evolved to track evolutionary fitness rather than to perceive truths about external reality. In this paper, I expound on his argument, then I extend it, primarily, by looking at key ideas in physics that are quite germane to it. Among the topics in physics that I discuss are black holes, the holographic principle, string theory, (...)
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  • Not Just Many Worlds but Many Universes? A Problem for the Many Worlds View of Quantum Mechanics.Peter Baumann - 2022 - Metaphysica 23 (2):295-305.
    The many-worlds view is one of the most discussed “interpretations” of quantum mechanics. As is well known, this view has some very controversial and much discussed aspects. This paper focuses on one particular problem arising from the combination of quantum mechanics with Special Relativity. It turns out that the ontology of the many-worlds view – the account of what there is and what branches of the universe exist – is relative to inertial frames. If one wants to avoid relativizing ontology, (...)
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  • Emergent Realities: Diffracting Barad within a quantum-realist ontology of matter and politics.Thomas Everth & Laura Gurney - 2022 - European Journal for Philosophy of Science 12 (3):1-20.
    One of the most influential contemporary authors of the new materialist turn in the social sciences is Karen Barad. Barad’s work in agential realism, based on her interpretations of quantum physics, has been widely cited within a growing body of new materialist publications. However, in translating Barad’s assertions into social domains, there has been increasing critical appraisal of the physics underlying her work and its relationship with non-quantum domains. In this paper, we contribute to this discussion by exploring aspects of (...)
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  • Cosmic Skepticism and the Beginning of Physical Reality (Doctoral Dissertation).Linford Dan - 2022 - Dissertation, Purdue University
    This dissertation is concerned with two of the largest questions that we can ask about the nature of physical reality: first, whether physical reality begin to exist and, second, what criteria would physical reality have to fulfill in order to have had a beginning? Philosophers of religion and theologians have previously addressed whether physical reality began to exist in the context of defending the Kal{\'a}m Cosmological Argument (KCA) for theism, that is, (P1) everything that begins to exist has a cause (...)
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  • Cognitive Science of Religion and Classical Theism: A Synthesis.Tyler McNabb & Michael DeVito - 2022 - Religions 13.
    Launonen and Mullins argue that if Classical Theism is true, human cognition is likely not theism-tracking, at least, given what we know from cognitive science of religion. In this essay, we develop a model for how classical theists can make sense of the findings from cognitive science, without abandoning their Classical Theist commitments. We also provide an argument for how our model aligns well with the Christian doctrine of general revelation.
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  • Missing Entities: Has Panpsychism Lost the Physical World?Damian Aleksiev - 2021 - Journal of Consciousness Studies 28 (9-10):194-211.
    Panpsychists aspire to explain human consciousness, but can they also account for the physical world? In this paper, I argue that proponents of a popular form of panpsychism cannot. I pose a new challenge against this form of panpsychism: it faces an explanatory gap between the fundamental experiences it posits and some physical entities. I call the problem of explaining the existence of these physical entities within the panpsychist framework “the missing entities problem.” Spacetime, the quantum state, and quantum gravitational (...)
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  • Electron Charge Density: A Clue from Quantum Chemistry for Quantum Foundations.Charles T. Sebens - 2021 - Foundations of Physics 51 (4):1-39.
    Within quantum chemistry, the electron clouds that surround nuclei in atoms and molecules are sometimes treated as clouds of probability and sometimes as clouds of charge. These two roles, tracing back to Schrödinger and Born, are in tension with one another but are not incompatible. Schrödinger’s idea that the nucleus of an atom is surrounded by a spread-out electron charge density is supported by a variety of evidence from quantum chemistry, including two methods that are used to determine atomic and (...)
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  • How Does an Entity Acquire Identity? Reassembling Relativistic Physics with Actor-Network Theory.Mariano Croce & Emilia Margoni - 2022 - Foundations of Science 27 (3):1055-1071.
    What is it that determines the identity of an entity? Processualism is a theoretical perspective that offers a startling answer to this question. The identity of an entity—whether human or nonhuman, animate or inanimate—depends on the set of relations in which this entity is located. And as the sets of relations are several, so are the identities that an entity can take. This article discusses this conclusion by integrating processual accounts from different fields of inquiry, such as relativistic physics and (...)
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  • From Quantum Entanglement to Spatiotemporal Distance.Alyssa Ney - 2021 - In Christian Wüthrich, Baptiste Le Bihan & Nick Huggett (eds.), Philosophy Beyond Spacetime: Implications From Quantum Gravity. Oxford: Oxford University Press.
    Within the field of quantum gravity, there is an influential research program developing the connection between quantum entanglement and spatiotemporal distance. Quantum information theory gives us highly refined tools for quantifying quantum entanglement such as the entanglement entropy. Through a series of well-confirmed results, it has been shown how these facts about the entanglement entropy of component systems may be connected to facts about spatiotemporal distance. Physicists are seeing these results as yielding promising methods for better understanding the emergence of (...)
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  • Quantum ontology de-naturalized: What we can't learn from quantum mechanics.Raoni Arroyo & Jonas R. B. Arenhart - 2024 - Theoria. An International Journal for Theory, History and Foundations of Science 32 (2):193-218.
    Philosophers of science commonly connect ontology and science, stating that these disciplines maintain a two-way relationship: on the one hand, we can extract ontology from scientific theories; on the other hand, ontology provides the realistic content of our scientific theories. In this article, we will critically examine the process of naturalizing ontology, i.e., confining the work of ontologists merely to the task of pointing out which entities certain theories commit themselves to. We will use non-relativistic quantum mechanics as a case (...)
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  • Future possible educational selves and the many worlds interpretation of quantum mechanics.James Reveley - 2024 - Educational Philosophy and Theory 56 (5):401-406.
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  • Sobre la expresión matemática del ejercicio interpretativo.David E. Bustamante Segovia - manuscript
    ● Un emplazamiento cualquiera (v. gr. sol en Tauro; Marte en Capricornio; Mercurio en la tercera casa) es necesariamente común a decenas de miles de personas. Saturno hospedado en la novena casa, por ejemplo, no se comportará de la misma manera o no producirá los mismos efectos en las veinte o cien cartas en que allí lo encontremos, sino en concordancia con el resto de la composición astrográfica (como hospedarnos en el mismo hotel en diferentes épocas o diferentes personas haber (...)
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  • On the mathematical expression of the interpretative exercise.David E. Bustamante Segovia - manuscript
    ● Any given placement (e.g. Sun in Taurus; Mars in Capricorn; Mercury in the third house) is necessarily common to tens of thousands of people. Saturn in the ninth house, for example, will not behave the same or produce the same effects in the twenty or one hundred charts in which we find it there. In each case Saturn will behave in accordance with the rest of the astrographic/chart composition (as if we stayed in the same hotel in different epochs (...)
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  • The Weirdness of the World.Eric Schwitzgebel - 2024 - Princeton University Press.
    How all philosophical explanations of human consciousness and the fundamental structure of the cosmos are bizarre—and why that’s a good thing Do we live inside a simulated reality or a pocket universe embedded in a larger structure about which we know virtually nothing? Is consciousness a purely physical matter, or might it require something extra, something nonphysical? According to the philosopher Eric Schwitzgebel, it’s hard to say. In The Weirdness of the World, Schwitzgebel argues that the answers to these fundamental (...)
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  • (2 other versions)Time.Bradley Dowden - 2023 - Internet Encyclopedia of Philosophy.
    Time is what clocks are used to measure. Information about time tells the durations of events and when they occur and which events happen before which others, so time plays a very significant role in the universe’s structure, including the structure of our personal lives. But carefully describing time’s properties has led to many unresolved issues, both philosophical and scientific.
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  • (1 other version)Does a Theory of Everything Exist?James R. Johnson - 2021 - Filosofiâ I Kosmologiâ 26:132-147.
    Since Einstein’s failure to define a Grand Unified Theory, physicists have pursued a comprehensive theory explaining nature, a Theory of Everything. But because General Relativity, Quantum Field Theory, and Cosmology have little in common, defining one theory is an imposing task, having eluded the best scientists for ninety years. So are we close to defining a Theory of Everything? This analysis, after defining requirements, identifies four possible options for a Theory of Everything. Quotes from prominent physicists express divergent views on (...)
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  • The fundamentality of fields.Charles T. Sebens - 2022 - Synthese 200 (5):1-28.
    There is debate as to whether quantum field theory is, at bottom, a quantum theory of fields or particles. One can take a field approach to the theory, using wave functionals over field configurations, or a particle approach, using wave functions over particle configurations. This article argues for a field approach, presenting three advantages over a particle approach: particle wave functions are not available for photons, a classical field model of the electron gives a superior account of both spin and (...)
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  • Auto-affection and the Curvature of Spacetime: Derrida Reading Heidegger Reading Kant.Cathrine Bjørnholt Michaelsen - 2020 - International Journal of Philosophical Studies 28 (3):411-432.
    This paper has a twofold objective. First, it engages with the interrelation of time, space, and matter in Kant, Heidegger, and Derrida and questions whether and how this interrelation effects the possibility of self-relation. In Kant and the Problem of Metaphysics Heidegger suggests that the very structure of subjectivity is constituted by what he calls the ‘pure self-affection’ of time and thus the possibility of self-relation is intimately bound up with the temporalizing of time. In his 1964–65 seminar, Heidegger: the (...)
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  • To know the self as a matrix of maybe : An account of the specialness of self-knowledge.Konstantin Andreev - unknown
    The essay is an attempt to make sense of the apparently special relation between self-knowledge and agency. To achieve that goal, the essay translates the account of what it is like to be a human self offered by Sartre into the language of evolutionary psychology. In L’être et le néant, Sartre describes the phenomenology of the self as a series of inescapable choices in a contingent set of circumstances. This essay identifies Sartre’s description with what Baumeister, Maranges and Sjåstad call (...)
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  • Ethics of Quantum Computing: an Outline.Luca M. Possati - 2023 - Philosophy and Technology 36 (3):1-21.
    This paper intends to contribute to the emerging literature on the ethical problems posed by quantum computing and quantum technologies in general. The key ethical questions are as follows: Does quantum computing pose new ethical problems, or are those raised by quantum computing just a different version of the same ethical problems raised by other technologies, such as nanotechnologies, nuclear plants, or cloud computing? In other words, what is new in quantum computing from an ethical point of view? The paper (...)
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  • Illusionism is no trick.Keith Frankish - 2022 - Human Affairs 32 (3):321-327.
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  • Quantum mechanics.Jenann Ismael - 2008 - Stanford Encyclopedia of Philosophy.
    Quantum mechanics is, at least at first glance and at least in part, a mathematical machine for predicting the behaviors of microscopic particles — or, at least, of the measuring instruments we use to explore those behaviors — and in that capacity, it is spectacularly successful: in terms of power and precision, head and shoulders above any theory we have ever had. Mathematically, the theory is well understood; we know what its parts are, how they are put together, and why, (...)
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