About the unified of continual gravitational - electromagnetic field

Автор(и)

DOI:

https://doi.org/10.32347/2524-0021.2019.31.35-51

Ключові слова:

continual fields, gravity, electromagnetism, impact, living matter, water media, self-consistent systems

Анотація

It is known that the energy of any field contributes to gravity. Such an energy dependence of the fields, taking into account the capacitive properties of the system, is considered as a reflection of the existence of a single physical field. It is shown that the vector potential of the electromagnetic field in the extended experimental basis of electrodynamics, which takes into account the influence of the capacitive properties of fields and space, reveals also the existence and influence of the gravitational field. The idea of using a single the continual field in the construction of the elements of living matter in aquatic environments has been formulated. An equation for the gravitational component of the single field was obtained without using the idea of curving spaces, and this problem was solved in the spirit of the Faraday – Maxwell approach. This opens up opportunities for the development of an approach to solving the problem of the influence of a set of the continual fields: gravitational and electromagnetic on the formation of elements of living matter in aquatic environments.

Посилання

Maxwell, J. Cl. (1989). A treatise on electricity and magnetism. V.1. Moscow: Science. [in Russian].

Lorenz, G. A. (1910). Electronic theory. S. Petersburg: Education. [in Russian].

Tamm, I. Ye., Smorodinsky, YA. A., & Kuznetsov, B.G. (Eds.). (1965). Einstein A. Collection of scientific papers in 4 volumes. V. 1. Work on the theory of relativity 1905-1920. Moscow: Science. (pp. 664-671). [in Russian].

Weil, G. (1996). Space, time, matter. Moscow: Janus. [in Russian].

Mie, G. (1914). The course of electricity and magnetism. Odessa: Matesis. Part 2. [in Russian].

Mie, G. (1912). Dir Grundlaqgen einer Theorie der Materie. Ann. Phys., 344(3). 511-534. doi:10.1002/andp.19123420306

Mie, G. (1912). Dir Grundlaqgen einer Theorie der Materie. Ann. Phys., 344 (11). 1-40. doi:10.1002/andp.19123441102

Mie, G. (1913). Dir Grundlaqgen einer Theorie der Materie. Ann. Phys., 345(1). 1-66. doi:10.1002/andp.19133450102

Tamm, I. Ye., Smorodinsky, YA. A., & Kuznetsov, B. G. (Eds.). (1967). Einstein A. Collection of scientific papers in 4 volumes. V. 4. Physics and reality. Moscow: Science. (pp. 200-227). [in Russian].

Maxwell, L. Clerk (2010). Electrical Researches of Henry Cavendish. Cambridge University Press doi:10.1017/CBO9780511696480

Simonov, I. N. (2001). Continuous electrodynamics. Kyiv: UkrINTEI. [in Russian].

Simonov, I. N., & Zagray, Ya. M. (1992). Self-consistent ionic systems. Kyiv.: Higher school. [in Russian].

Simonov, I. N. (2008). Continual theory of self-consistent systems. Kyiv: Kiev University. [in Russian].

Simonov, I. N. (2014). The field theory of the structural particles of matter and new aspects of ecology. Environmental safety and environmental management, 14, 154-167. [in Russian].

Simonov, I. N. (2016). The dynamic ar-chitecture of the structural particles of matter way nature's to self-organized of the systems aquatic environments. Problems of Water supply, Sewerage and Hydraulic, 27, 318-338. [in Russian].

Dorfman, Ya. G. (1974). World History of Physics (From Ancient Times to the End of the 18th Century). Moscow: Science. [in Russian].

Christiansen, K. (1897). Fundamentals of Theoretical Physics. S.-P. Edition F.V. Schepansky. [in Russian].

Panovsky, V., & Phillips, M. (1963). Classical electrodynamics. Moscow: State Publishing House of Physics and Mathematics. [in Russian].

Landau, L. D., & Lifshits, E. M. (1967). Field theory. Moscow: Science. [in Russian].

Simonov, I. N. (1988). The double elec-tric layer as a model of self-consistent short-acting fields of dynamical systems. Theoretical Electrical Engineering, 44. 20-27. [in Russian].

Simonov, I. N. (2018). On the continual gravitational field of water environments in the context of the formation of self-organized structures (living matter). Problems of Water supply, Sewerage and Hydraulic, 29, 20-36. doi:10.32347/2524-0021.2018.29.20-36

Fock, V. A. (1961). The theory of space, time and gravity. Moscow: State Publishing House of Physical and Mathematical Sciences. [in Russian].

Logunov, A. A. (2006). The Relativistic Theory of Gravity. Moscow: Science. [in Russian].

Logunov, A. A. (2001). The theory of the gravitational field. Moscow: Science. [in Russian].

Logunov, A. A., & Mestvirishvili, M. A (1997). Theoretical and Mathematical Physics, 110, 5-24. [in Russian].

Logunov, A. A. (2004). The theory of the classical gravitational field. Institute of High Energy Physics. Preprint 41. Protvino. [in Russian].

Morozov, V. B. (2018). Einstein’s Equation. Parana Journal of Science and Education (PJSE), 4 (1). 6-10. Retrieved from https://drive.google.com/file/d/1iyNK6D0nVEKAx8l288MKSVtiaNgC5LQK/view

Simonov, I. N. (2016). Formation of liv-ing matter in water media: factors gravity, hydrodynamics and of the continual electro-dynamics. Problems of Water supply, Sewerage and Hydraulic, 27, 338-345. [in Russian].

Simonov, I. N., & Trofimovich, V. V. (2015). Features of the formation of living matter and the influence of continuum elec-tromagnetic fields of the environment. Environmental safety and environmental management, 18. 76–87. [in Russian].

Simonov, I. N., & Trofimovich, V. V. (2013). Forms of the movement of living matter as a subject of fundamental research in ecology. Environmental safety and environmental management, 12, 114-122. [in Russian].

Simonov, I. N., & Trofimovich, V. V. (2011). The modern interpretation of ecology as a science in the context of the study of the forms of motion of living matter. Environmental safety and environmental management, 8, 166–175. [in Russian].

Simonov, I. N. (2013). On the field concept of matter and the possible mechanism for the interaction of living matter and aque-ous media. Problems of Water supply, Sewerage and Hydraulic, 21. С.44-57. [in Russian].

Tamm, I. Ye., Smorodinsky, YA. A., & Kuznetsov, B. G. (Eds.). (1966). Einstein A. Collection of scientific papers in 4 volumes. V. 2. Work on the theory of relativity 1921-1955. Moscow: Science. (pp. 744-759). [in Russian].

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Опубліковано

2019-09-03

Як цитувати

Simonov, I. (2019). About the unified of continual gravitational - electromagnetic field. Проблеми водопостачання, водовідведення та гідравліки, (31), 35–51. https://doi.org/10.32347/2524-0021.2019.31.35-51