The Informational Magnecule: The Role of Aqueous Coherence and Information in Biological Dynamics and Morphology
American Journal of Modern Physics
Volume 6, Issue 4-1, August 2017, Pages: 17-28
Received: Aug. 28, 2016; Accepted: Aug. 30, 2016; Published: Sep. 26, 2017
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Richard Lawrence Norman, Mind Magazine, Journal of Unconscious Psychology, O'Brien, USA
Jeremy Dunning-Davies, Departments of Mathematics and Physics, Institute for Basic Research, University of Hull, Florida, USA
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Biological systems are dependent upon and intertwined with aqueous systems. We will present empirically derived evidence of the unique properties of water and demonstrate the efficacious role of molecular electromagnetic informational encoding as mediated through aqueous dynamics and mnemic properties. Working theory will then be articulated from quantum, thermodynamic and Hadronic aspects. An aqueous molecular species of dynamic magnecule will then be defined. Implications are drawn which point to a possible nontoxic, purely informational potential for future medical and pharmacological science. Magnecules and aqueous informational magnecular dynamics may one day redefine energy storage and production, as well as medical practice.
Magnecule, Liquid Water, Aqueous Systems, Information, Electromagnetism
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Richard Lawrence Norman, Jeremy Dunning-Davies, The Informational Magnecule: The Role of Aqueous Coherence and Information in Biological Dynamics and Morphology, American Journal of Modern Physics. Special Issue: Issue III: Foundations of Hadronic Chemistry. Vol. 6, No. 4-1, 2017, pp. 17-28. doi: 10.11648/j.ajmp.s.2017060401.12
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This article is an open access article distributed under the Creative Commons Attribution License ( which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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