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A Phenomenological Relation for Decay Times: A Quantum Mechanical Approach

  • Frans De Medts
  • T. U. Eindhoven

Recent Advances in Mathematical Research and Computer Science Vol. 4, 12 November 2021 , Page 50-59
https://doi.org/10.9734/bpi/ramrcs/v4/14004D Published: 2021-11-12

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Abstract

In 1931, Georges Lemaitre was invited to London to attend a British Association symposium on the relationship between the physical Universe and spirituality. He postulated that the Universe expanded from a starting point, which he dubbed the "Primeval Atom" and developed in a report published in Nature titled ‘The beginning of the World from the Point of View of Quantum Theory’ [1]. This article explains how the way the universe is claimed to have come into being governs (and hence can be the deeper cause of) all quantum mechanical phenomena. A ‘smallest space-action' (or ‘smallest limited quantity of uncertainty') is constructed on the basis of hidden symmetries, which offers a connection between all that is and establishes the boundaries within which all variation is possible; unity in diversity then.

Keywords:
  • The smallest space-action

How to Cite

Medts, F. D. ., & Eindhoven, T. U. . (2021). A Phenomenological Relation for Decay Times: A Quantum Mechanical Approach. Recent Advances in Mathematical Research and Computer Science Vol. 4, 50–59. https://doi.org/10.9734/bpi/ramrcs/v4/14004D
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