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OverviewThis book is a contribution to a problem in foundational studies, the problem of the interpretation of quantum mechanics, in the sense of the theoretical significance of the transition from classical to quantum mechanics. The obvious difference between classical and quantum mechanics is that quantum mechanics is statistical and classical mechanics isn't. Moreover, the statistical character of the quantum theory appears to be irreducible: unlike classical statistical mechanics, the probabilities are not generated by measures on a probability space, i. e. by distributions over atomic events or classical states. But how can a theory of mechanics be statistical and complete? Answers to this question which originate with the Copenhagen inter pretation of Bohr and Heisenberg appeal to the limited possibilities of measurement at the microlevel. To put it crudely: Those little electrons, protons, mesons, etc. , are so tiny, and our fingers so clumsy, that when ever we poke an elementary particle to see which way it will jump, we disturb the system radically - so radically, in fact, that a considerable amount of information derived from previous measurements is no longer applicable to the system. We might replace our fingers by finer probes, but the finest possible probes are the elementary particles them selves, and it is argued that the difficulty really arises for these. Full Product DetailsAuthor: Jeffrey BubPublisher: Springer Imprint: Kluwer Academic Publishers Edition: New edition Volume: 3 Dimensions: Width: 15.50cm , Height: 1.10cm , Length: 23.50cm Weight: 0.930kg ISBN: 9789027704658ISBN 10: 9027704651 Pages: 156 Publication Date: 31 July 1974 Audience: College/higher education , Undergraduate Format: Hardback Publisher's Status: Active Availability: In Print This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us. Table of ContentsI. The Statistical Algorithm of Quantum Mechanics.- I. Remarks.- II. Early Formulations.- III. Hilbert Space.- IV. The Statistical Algorithm.- V. Generalization of the Statistical Algorithm.- VI. Compatibility.- II. The Problem of Completeness.- I. The Classical Theory of Probability and Quantum Mechanics.- II. Uncertainty and Complementarity.- III. Hidden Variables.- III. Von Neumann’s Completeness Proof.- IV. Lattice Theory: The Jauch and Piron Proof.- V. The Imbedding Theorem of Kochen and Specker.- VI. The Bell-Wigner Locality Argument.- VII. Resolution of the Completeness Problem.- VIII. The Logic of Events.- I. Remarks.- II. Classical Logic.- III. Mechanics.- IX. Imbeddability and Validity.- X. The Statistics of Non-Boolean Event Structures.- XI. The Measurement Problem.- XII. The Interpretation of Quantum Mechanics.- Index of Subjects.ReviewsAuthor InformationTab Content 6Author Website:Countries AvailableAll regions |