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  1. Two Dogmas of Empiricism.W. Quine - 1951 - [Longmans, Green].
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  • (1 other version)The Recently Claimed Observation of Atomic Orbitals and Some Related Philosophical Issues.Eric R. Scerri - 2001 - Philosophy of Science 68 (S3):S76-S88.
    The main thrust of the paper involves a theoretical and philosophical analysis of the claim made in September 1999 that atomic orbitals have been directly imaged for the first time. After a brief account of the recent claims the paper reviews the development of the orbit and later orbital concepts and analyzes the theoretical status of atomic orbitals. The conclusion is that contrary to these claims, atomic orbitals have not in fact been observed. The non-referring nature of modern atomic orbitals (...)
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  • Reductionism and the Relation Between Chemistry and Physics.Hasok Chang - 2015 - In Ana Simões, Jürgen Renn & Theodore Arabatzis (eds.), Relocating the History of Science: Essays in Honor of Kostas Gavroglu. Springer Verlag.
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  • (4 other versions)Two Dogmas of Empiricism.Willard V. O. Quine - 1951 - Philosophical Review 60 (1):20–43.
    Modern empiricism has been conditioned in large part by two dogmas. One is a belief in some fundamental cleavage between truths which are analytic, or grounded in meanings independently of matters of fact, and truth which are synthetic, or grounded in fact. The other dogma is reductionism: the belief that each meaningful statement is equivalent to some logical construct upon terms which refer to immediate experience. Both dogmas, I shall argue, are ill founded. One effect of abandoning them is, as (...)
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  • (1 other version)Bohmian mechanics.Sheldon Goldstein - 2008 - Stanford Encyclopedia of Philosophy.
    Bohmian mechanics, which is also called the de Broglie-Bohm theory, the pilot-wave model, and the causal interpretation of quantum mechanics, is a version of quantum theory discovered by Louis de Broglie in 1927 and rediscovered by David Bohm in 1952. It is the simplest example of what is often called a hidden variables interpretation of quantum mechanics. In Bohmian mechanics a system of particles is described in part by its wave function, evolving, as usual, according to Schrödinger's equation. However, the (...)
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  • (4 other versions)Two Dogmas of Empiricism.W. V. O. Quine - 2011 - In Robert B. Talisse & Scott F. Aikin (eds.), The Pragmatism Reader: From Peirce Through the Present. Princeton University Press. pp. 202-220.
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  • On the alleged non-existence of orbitals.Peter Mulder - 2010 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 41 (2):178-182.
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  • The Problem of Hidden Variables in Quantum Mechanics.Simon Kochen & E. P. Specker - 1967 - Journal of Mathematics and Mechanics 17:59--87.
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  • (1 other version)The recently claimed observation of atomic orbitals and some related philosophical issues.Eric R. Scerri - 2001 - Proceedings of the Philosophy of Science Association 2001 (3):S76-.
    The main thrust of the paper involves a theoretical and philosophical analysis of the claim made in September 1999 that atomic orbitals have been directly imaged for the first time. After a brief account of the recent claims the paper reviews the development of the orbit and later orbital concepts and analyzes the theoretical status of atomic orbitals. The conclusion is that contrary to these claims, atomic orbitals have not in fact been observed. The non-referring nature of modern atomic orbitals (...)
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  • Are Orbitals Observable?Peter Mulder - 2011 - Hyle 17 (1):24 - 35.
    In this paper I discuss the question whether orbitals can be observed or not. I argue that the answer depends on how the terms 'orbitals' and 'observed' are understood. The fact that different authors take radically different stances on the issue is caused by their employing different uses of either of the two terms. I furthermore discuss a recent argument by Labarca and Lombardi to the effect that the orbital concept in chemistry is discontinuous with that in quantum mechanics. I (...)
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  • Quantum Mechanics: Modal Interpretation and Galilean Transformations. [REVIEW]Juan Sebastian Ardenghi, Mario Castagnino & Olimpia Lombardi - 2009 - Foundations of Physics 39 (9):1023-1045.
    The aim of this paper is to consider in what sense the modal-Hamiltonian interpretation of quantum mechanics satisfies the physical constraints imposed by the Galilean group. In particular, we show that the only apparent conflict, which follows from boost-transformations, can be overcome when the definition of quantum systems and subsystems is taken into account. On this basis, we apply the interpretation to different well-known models, in order to obtain concrete examples of the previous conceptual conclusions. Finally, we consider the role (...)
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  • (1 other version)La théorie physique: son objet et sa structure.P. Duhem - 1906 - Revue Philosophique de la France Et de l'Etranger 61:324-327.
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  • The Aim and Structure of Physical Theory.Pierre Duhem & Philip P. Wiener - 1955 - Science and Society 19 (1):85-87.
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  • The physicists, the chemists, and the pragmatics of explanation.Robin Findlay Hendry - 2004 - Philosophy of Science 71 (5):1048-1059.
    In this paper I investigate two views of theoretical explanation in quantum chemistry, advocated by John Clarke Slater and Charles Coulson. Slater argued for quantum‐mechanical rigor, and the primacy of fundamental principles in models of chemical bonding. Coulson emphasized systematic explanatory power within chemistry, and continuity with existing chemical explanations. I relate these views to the epistemic contexts of their disciplines.
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  • (2 other versions)Quantum Mechanics: Historical Contingency and the Copenhagen Hegemony.James T. Cushing - 1998 - British Journal for the Philosophy of Science 49 (2):317-328.
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  • (1 other version)Isomerism and decoherence.Juan Camilo Martínez González, Olimpia Lombardi & Sebastian Fortin - 2016 - Foundations of Chemistry 18 (3):225-240.
    In the present paper we address the problem of optical isomerism embodied in the socalled “Hund’s paradox”, which points to the difficulty to account for chirality by means of quantum mechanics. In particular, we explain the answer to the problem proposed by the theory of decoherence. The purpose of this article is to challenge this answer on the basis of a conceptual analysis of the phenomenon of decoherence, that reveals the limitations of the theory of decoherence to solve the difficulties (...)
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