This article traces the influence of physical models of the electromagnetic medium on electrodynamics. The connection between the ability of the electrodynamic equations to describe the processes under study and the adequacy of the model of the electromagnetic medium used in their derivation to the known data is shown. It is revealed that the assumption of the absence of the existence of the electromagnetic medium leads to certain methodological difficulties in deriving the electrodynamic equations. The paper highlights the main milestones in the evolution of the physical model of electromagnetic medium. As a rule, the existence of electromagnetic medium in physics has been denied up to the present time due to the lack of its consistent model. A new physical model of the electromagnetic medium is developed and based on it a system of electrodynamic equations is derived that agree with the known data of physical experiments and astronomical observations. On the basis of the proposed physical model, a mathematical description of the method of detecting the electromagnetic medium is obtained. The developed physical model made it possible not only to explain the data of known electromagnetic phenomena and experiments, but also to propose the Galilean relativity principle within the framework of classical mechanics. Possible consequences of detection of the electromagnetic medium are discussed.
| Published in | Mathematics and Computer Science (Volume 6, Issue 6) |
| DOI | 10.11648/j.mcs.20210606.11 |
| Page(s) | 83-87 |
| 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), 2021. Published by Science Publishing Group |
Electrodynamics, Electromagnetic Medium, Principle of Galilean Relativity
| [1] | J. C. Maxwell, A Treatise on Electricity and Magnetism (Clarendon, Oxford, Vol. 1, ed. 3, 1891) - (reprinted Dover, New York, 1954). |
| [2] | J. C. Maxwell, Phil. Trans. R. Soc. Lond. 155, 459 (1865). |
| [3] | H. Minkowski, Nachr. K. Ges. Wiss. Gottingen, 53 (1908). |
| [4] | H. Hertz, Wied. Ann. 41, 369 (1890). |
| [5] | M. Planck, Theory of Electricity and Magnetism, Macmillan and co., London 1932. |
| [6] | A. Sommerfeld, Electrodynamik, Akademische Verlagsgesellchaft, Leipzig 1949. |
| [7] | M. Faraday, Experimental Researches in Electricity: Great Books of the Western World, Vol. 42. Encyclopedia Britannica, University of Chicago 1994. |
| [8] | R. Feynmann, R. Leighton, and M. Sands, The Feynmann’s Lectures on Physics, California Institute of Technology: Addison-Wesley, Massachusetts, Palo Alto, London 1964. |
| [9] | A. Rozov, Z. Naturforsch. 72, 757 (2017). 10.1515/zna-2015-0142. |
| [10] | A. Rozov, Z. Naturforsch. 70, 1019 (2015).10.1515/zna-2016-0287. |
| [11] | H. A. Lorentz, The Theory of Electrons, Dover, New York 1952. |
| [12] | M. Born, Einstein’s Theory of Relativity, Dover Publications, New York 1962. |
| [13] | W. Pauli, Theory of Relativity. Pergamon Press, London 1958. |
| [14] | B. R. Gelbaum and Y. M. H. Olmsted, Counterexamples in analysis, Holden-Day, San Fracisco, Amsterdam 1964. |
| [15] | M. Wilson and H. A. Wilson, Phil. Trans. Roy. Soc. A 89, 99 (1913). |
| [16] | A. Rozov, Mathematical Models and Computer Simulations, 12, 613 (2020). 10.1134/S207004822004016X. |
| [17] | J. Seeger, Galileo Galilei, His Life and His Works, Pergamon Press, Oxford 1966. |
APA Style
Rozov Andrey. (2021). Dependence of Electrodynamics on the Models of the Electromagnetic Medium. Mathematics and Computer Science, 6(6), 83-87. https://doi.org/10.11648/j.mcs.20210606.11
ACS Style
Rozov Andrey. Dependence of Electrodynamics on the Models of the Electromagnetic Medium. Math. Comput. Sci. 2021, 6(6), 83-87. doi: 10.11648/j.mcs.20210606.11
AMA Style
Rozov Andrey. Dependence of Electrodynamics on the Models of the Electromagnetic Medium. Math Comput Sci. 2021;6(6):83-87. doi: 10.11648/j.mcs.20210606.11
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Download@article{10.11648/j.mcs.20210606.11,
author = {Rozov Andrey},
title = {Dependence of Electrodynamics on the Models of the Electromagnetic Medium},
journal = {Mathematics and Computer Science},
volume = {6},
number = {6},
pages = {83-87},
doi = {10.11648/j.mcs.20210606.11},
url = {https://doi.org/10.11648/j.mcs.20210606.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.mcs.20210606.11},
abstract = {This article traces the influence of physical models of the electromagnetic medium on electrodynamics. The connection between the ability of the electrodynamic equations to describe the processes under study and the adequacy of the model of the electromagnetic medium used in their derivation to the known data is shown. It is revealed that the assumption of the absence of the existence of the electromagnetic medium leads to certain methodological difficulties in deriving the electrodynamic equations. The paper highlights the main milestones in the evolution of the physical model of electromagnetic medium. As a rule, the existence of electromagnetic medium in physics has been denied up to the present time due to the lack of its consistent model. A new physical model of the electromagnetic medium is developed and based on it a system of electrodynamic equations is derived that agree with the known data of physical experiments and astronomical observations. On the basis of the proposed physical model, a mathematical description of the method of detecting the electromagnetic medium is obtained. The developed physical model made it possible not only to explain the data of known electromagnetic phenomena and experiments, but also to propose the Galilean relativity principle within the framework of classical mechanics. Possible consequences of detection of the electromagnetic medium are discussed.},
year = {2021}
}
TY - JOUR T1 - Dependence of Electrodynamics on the Models of the Electromagnetic Medium AU - Rozov Andrey Y1 - 2021/11/05 PY - 2021 N1 - https://doi.org/10.11648/j.mcs.20210606.11 DO - 10.11648/j.mcs.20210606.11 T2 - Mathematics and Computer Science JF - Mathematics and Computer Science JO - Mathematics and Computer Science SP - 83 EP - 87 PB - Science Publishing Group SN - 2575-6028 UR - https://doi.org/10.11648/j.mcs.20210606.11 AB - This article traces the influence of physical models of the electromagnetic medium on electrodynamics. The connection between the ability of the electrodynamic equations to describe the processes under study and the adequacy of the model of the electromagnetic medium used in their derivation to the known data is shown. It is revealed that the assumption of the absence of the existence of the electromagnetic medium leads to certain methodological difficulties in deriving the electrodynamic equations. The paper highlights the main milestones in the evolution of the physical model of electromagnetic medium. As a rule, the existence of electromagnetic medium in physics has been denied up to the present time due to the lack of its consistent model. A new physical model of the electromagnetic medium is developed and based on it a system of electrodynamic equations is derived that agree with the known data of physical experiments and astronomical observations. On the basis of the proposed physical model, a mathematical description of the method of detecting the electromagnetic medium is obtained. The developed physical model made it possible not only to explain the data of known electromagnetic phenomena and experiments, but also to propose the Galilean relativity principle within the framework of classical mechanics. Possible consequences of detection of the electromagnetic medium are discussed. VL - 6 IS - 6 ER -
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