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  1. Quantum Physics, Digital Computers, and Life from a Holistic Perspective.George F. R. Ellis - 2024 - Foundations of Physics 54 (4):1-29.
    Quantum physics is a linear theory, so it is somewhat puzzling that it can underlie very complex systems such as digital computers and life. This paper investigates how this is possible. Physically, such complex systems are necessarily modular hierarchical structures, with a number of key features. Firstly, they cannot be described by a single wave function: only local wave functions can exist, rather than a single wave function for a living cell, a cat, or a brain. Secondly, the quantum to (...)
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  • The Chemical Core of Chemistry I: A Conceptual Approach.Joachim Schummer - 1998 - Hyle 4 (2):129 - 162.
    Given the rich diversity of research fields usually ascribed to chemistry in a broad sense, the present paper tries to dig our characteristic parts of chemistry that can be conceptually distinguished from interdisciplinary, applied, and specialized subfields of chemistry, and that may be called chemistry in a very narrow sense, or 'the chemical core of chemistry'. Unlike historical, ontological, and 'anti-reductive' approaches, I use a conceptual approach together with some methodological implications that allow to develop step by step a kind (...)
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  • Contextual Emergence of Physical Properties.Robert C. Bishop & George F. R. Ellis - 2020 - Foundations of Physics 50 (5):481-510.
    Contextual emergence was originally proposed as an inter-level relation between different levels of description to describe an epistemic notion of emergence in physics. Here, we discuss the ontic extension of this relation to different domains or levels of physical reality using the properties of temperature and molecular shape as detailed case studies. We emphasize the concepts of stability conditions and multiple realizability as key features of contextual emergence. Some broader implications contextual emergence has for the foundations of physics and cognitive (...)
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  • The idea of realism in the new experimentalism and the problem of the existence of theoretical entities in chemistry.Paweł Zeidler & Danuta Sobczyńska - 1995 - Foundations of Science 1 (4):517-535.
    The paper is focused on some aspects of experimental realism of Ian Hacking, and especially on his manipulability criterion of existence. The problem is here related to chemical molecules, the objects of interest in chemical research. The authors consider whether and to what extent this criterion has been applied in experimental practice of chemistry. They argue that experimentation on is a fundamental criterion of existence of entities in chemistry rather than experimentation with. Some examples regarding studies of structures of complex (...)
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  • Thermal substances: a Neo-Aristotelian ontology of the quantum world.Robert C. Koons - 2019 - Synthese 198 (Suppl 11):2751-2772.
    The paper addresses a problem for the unification of quantum physics with the new Aristotelianism: the identification of the members of the category of substance. I outline briefly the role that substance plays in Aristotelian metaphysics, leading to the postulating of the Tiling Constraint. I then turn to the question of which entities in quantum physics can qualify as Aristotelian substances. I offer an answer: the theory of thermal substances, and I construct a fivefold case for thermal substances, based on (...)
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  • Patching physics and chemistry together.Robert C. Bishop - 2005 - Philosophy of Science 72 (5):710-722.
    The "usual story" regarding molecular chemistry is that it is roughly an application of quantum mechanics. That is to say, quantum mechanics supplies everything necessary and sufficient, both ontologically and epistemologically, to reduce molecular chemistry to quantum mechanics. This is a reductive story, to be sure, but a key explanatory element of molecular chemistry, namely molecular structure, is absent from the quantum realm. On the other hand, typical characterizations of emergence, such as the unpredictability or inexplicability of molecular structure based (...)
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  • Whence chemistry?Robert C. Bishop - 2010 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 41 (2):171-177.
    Along with exploring some of the necessary conditions for the chemistry of our world given what we know about quantum mechanics, I will also discuss a different reductionist challenge than is usually considered in debates on the relationship of chemistry to physics. Contrary to popular belief, classical physics does not have a reductive relationship to quantum mechanics and some of the reasons why reduction fails between classical and quantum physics are the same as for why reduction fails between chemistry and (...)
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  • Cartesian cut, Heisenberg cut, and the concept of complexity.Harald Atmanspacher - 1997 - World Futures 49 (3):333-355.
    (1997). Cartesian cut, Heisenberg cut, and the concept of complexity. World Futures: Vol. 49, The Quest for a Unified Theory of Information, pp. 333-355.
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  • Chemistry as the science of the transformation of substances.J. Brakevanl - 1997 - Synthese 111 (3):253-282.
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  • Contextual Emergence in the Description of Properties.Robert C. Bishop & Harald Atmanspacher - 2006 - Foundations of Physics 36 (12):1753-1777.
    The role of contingent contexts in formulating relations between properties of systems at different descriptive levels is addressed. Based on the distinction between necessary and sufficient conditions for interlevel relations, a comprehensive classification of such relations is proposed, providing a transparent conceptual framework for discussing particular versions of reduction, emergence, and supervenience. One of these versions, contextual emergence, is demonstrated using two physical examples: molecular structure and chirality, and thermal equilibrium and temperature. The concept of stability is emphasized as a (...)
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