In this paper, we outline the main features of the chemical species of magnecules and their magnecular bond; we then present, apparently for the first time, experimental evidence via three different analytic methods at different laboratories on the capability by suitably polarized Hydrogen atoms to have a magnecular bond to ordinary molecules; and we submit, also apparently for the first time, a tentative model of the liquid state of water with an explicitly identified attractive force between the water molecules consisting of magnecular bonds between opposing polarities of the toroidal configurations of the orbits of the valence electrons of water molecules, for which the boiling temperature is the Curie temperature of the magnecular bond as established for other magnecular species. We finally point out the environmental and industrial significance of the achievement of a quantitative structure model of the water liquid state due to its extension to gasoline and other liquid fuels with ensuing possibilities to improve their combustion.
| Published in |
American Journal of Modern Physics (Volume 6, Issue 4-1)
This article belongs to the Special Issue Issue III: Foundations of Hadronic Chemistry |
| DOI | 10.11648/j.ajmp.s.2017060401.14 |
| Page(s) | 46-52 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2017. Published by Science Publishing Group |
Valence, Magnecular Bond, Magnecule, Hydrogen
| [1] | R. M. Santilli, Foundations of Hadronic Chemistry, with Applications to New Clean Energies and Fuels, Kluwer Academic Publishers (2001), http://www.santilli-foundation.org/docs/Santilli-113.pdf Russian translation by A. K. Aringazin http://i-b-r.org/docs/Santilli-Hadronic-Chemistry |
| [2] | and The New Fuels with Magnecular Structure, International Academic Press (2005), http://www.i-b-r.org/docs/Fuels-Magnecular-Structure.pdf |
| [3] | Y. Yang, J. V. Kadeisvili, and S. Marton, “Experimental Confirmations of the New Chemical Species of Santilli Magnecules,” to be submitted for publication. http://www.santilli-foundation.org/docs/Magnecules-2012.pdf |
| [4] | Y. Yang, J. V. Kadeisvili, and S. Marton, “Experimental Confirmations of the New Chemical Species of Santilli MagneHydrogen,” to be submitted for publication. http://www.santilli-foundation.org/docs/MagneHydrogen-2012.pdf |
| [5] | D. Eisenberg and W. Kauznann, The structure and properties of water, Oxford University |
APA Style
Ruggero Maria Santilli. (2017). A Tentative Magnecular Model of Liquid Water with an Explicit Attractive Force Between Water Molecules. American Journal of Modern Physics, 6(4-1), 46-52. https://doi.org/10.11648/j.ajmp.s.2017060401.14
ACS Style
Ruggero Maria Santilli. A Tentative Magnecular Model of Liquid Water with an Explicit Attractive Force Between Water Molecules. Am. J. Mod. Phys. 2017, 6(4-1), 46-52. doi: 10.11648/j.ajmp.s.2017060401.14
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Download@article{10.11648/j.ajmp.s.2017060401.14,
author = {Ruggero Maria Santilli},
title = {A Tentative Magnecular Model of Liquid Water with an Explicit Attractive Force Between Water Molecules},
journal = {American Journal of Modern Physics},
volume = {6},
number = {4-1},
pages = {46-52},
doi = {10.11648/j.ajmp.s.2017060401.14},
url = {https://doi.org/10.11648/j.ajmp.s.2017060401.14},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajmp.s.2017060401.14},
abstract = {In this paper, we outline the main features of the chemical species of magnecules and their magnecular bond; we then present, apparently for the first time, experimental evidence via three different analytic methods at different laboratories on the capability by suitably polarized Hydrogen atoms to have a magnecular bond to ordinary molecules; and we submit, also apparently for the first time, a tentative model of the liquid state of water with an explicitly identified attractive force between the water molecules consisting of magnecular bonds between opposing polarities of the toroidal configurations of the orbits of the valence electrons of water molecules, for which the boiling temperature is the Curie temperature of the magnecular bond as established for other magnecular species. We finally point out the environmental and industrial significance of the achievement of a quantitative structure model of the water liquid state due to its extension to gasoline and other liquid fuels with ensuing possibilities to improve their combustion.},
year = {2017}
}
TY - JOUR T1 - A Tentative Magnecular Model of Liquid Water with an Explicit Attractive Force Between Water Molecules AU - Ruggero Maria Santilli Y1 - 2017/09/26 PY - 2017 N1 - https://doi.org/10.11648/j.ajmp.s.2017060401.14 DO - 10.11648/j.ajmp.s.2017060401.14 T2 - American Journal of Modern Physics JF - American Journal of Modern Physics JO - American Journal of Modern Physics SP - 46 EP - 52 PB - Science Publishing Group SN - 2326-8891 UR - https://doi.org/10.11648/j.ajmp.s.2017060401.14 AB - In this paper, we outline the main features of the chemical species of magnecules and their magnecular bond; we then present, apparently for the first time, experimental evidence via three different analytic methods at different laboratories on the capability by suitably polarized Hydrogen atoms to have a magnecular bond to ordinary molecules; and we submit, also apparently for the first time, a tentative model of the liquid state of water with an explicitly identified attractive force between the water molecules consisting of magnecular bonds between opposing polarities of the toroidal configurations of the orbits of the valence electrons of water molecules, for which the boiling temperature is the Curie temperature of the magnecular bond as established for other magnecular species. We finally point out the environmental and industrial significance of the achievement of a quantitative structure model of the water liquid state due to its extension to gasoline and other liquid fuels with ensuing possibilities to improve their combustion. VL - 6 IS - 4-1 ER -
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