Covid-19 Research

Open Access
Review Article
OCLC 9382553018

Quantum Theory of Gravity and Arthur Eddingtons Fundamental Theory Google Scholar

Read • Cite • Share — permanent Open Access hosting with DOI tracking
General Science
Physics
Article Submission Portal

Konstantinov SI*

Volume2-Issue11
Dates: Received: 2021-10-26 | Accepted: 2021-11-12 | Published: 2021-11-15
Pages: 1092-1100

Abstract

For the first time, the article presents the Quantum Theory of Gravity, covering not only the microcosm of elementary particles, but also the macrocosm of planets, stars and black holes. This relational approach to gravity was consistently presented in Arthur Eddington's monograph “Fundamental Theory”. In the theory of quantum gravity proposes to consider instead of gravity holes in the curved space-time of Einstein's general relativity, gravitational funnels formed by the rotation of planets, stars and galaxies in a dark matter halo. The change in the gravitational potential in the funnels occurs instantly in all areas of the gravitational funnel space in accordance with the pressure gradient described by the Euler-Bernoulli equation for superfluid continuous media. The new cosmological theory represents the evolution of the universe and dark holes without a singularity. The disordered alternation of the processes of contraction and expansion of individual regions of the infinite Universe realizes the circulation of baryonic and dark matter, which allows it to exist indefinitely, bypassing the state of equilibrium. Numerical modeling allows us to assert that the theory of quantum gravity is the most reliable of the three generally accepted theories of gravity.

FullText HTML FullText PDF DOI: 10.37871/jbres1353

Certificate of Publication

Copyright

© 2021 Konstantinov SI. Distributed under Creative Commons CC-BY 4.0

How to cite this article

Konstantinov SI. Quantum Theory of Gravity and Arthur Eddingtons Fundamental Theory. J Biomed Res Environ Sci. 2021 Nov 15; 2(11): 1092-1100. doi: 10.37871/jbres1353, Article ID: JBRES1353, Available at: https://www.jelsciences.com/articles/jbres1353.pdf

Subject area(s)

Physics

University/Institute

Herzen State Pedagogical University of Russia

References

  1. Lee Smolin. The trouble with physics: The rise of string theory, the fall of a science, and what comes next. Houghton Mifflin, Boston. 2006. https://tinyurl.com/ff2yre8r
  2. Eddincton AS. Fundamental theory. Cambridge. 1946. doi: 10.4236/jbbs.2012.21013
  3. Konstantinov S. Superluminal neutrinos-particles of hot dark matter of dark holes. Journal Physical in Higher Universities. 2021;26(3):12-21.
  4. Renn J, Gutfreund H. Einstein on Einstein: Autobiographical and scientific reflections. Princeton University Press. 2020. https://tinyurl.com/me6wrvaz
  5. Einstein. The meaning of relativity: Four lectures delivered at Princeton University. Princeton University Press. Princeton; 2004.
  6. Hawking S. From the Big Bang to Black Holes. New York: Bantam Books. 1988. https://tinyurl.com/f988fyyr
  7. Konstantinov SI. Epistemological dualism between Einstein's relativity and quantum mechanics in the five-dimensional continuum for Universe. Global Journals Inc. (USA) GJSFR-A. 2020;20(6):31-38. doi: 10.15406/paij.2020.04.00211
  8. Vladimirov Yu S. Space and time: Explicit and hidden dimensions. Moscow: Librok; 2012.
  9. Farnes JS. A unifying theory of dark energy and dark matter: Negative masses and matter creation within a modified ΛCDM framework-Astronomy & Astrophysics. 2018;620. doi: 10.1051/0004-6361/201832898
  10. Konstantinov SI. Halo of dark matter and gravitational waves. Global Journals Inc. (USA) GJSFR-A. 2020;20(4)5-11. https://tinyurl.com/k7uuz27x
  11. Krishnan VV, Bailes M, van Straten W, Wex N, Freire PCC, Keane EF, Tauris TM, Rosado PA, Bhat NDR, Flynn C, Jameson A, Osłowski S. Lense-Thirring frame dragging induced by a fast-rotating white dwarf in a binary pulsar system. Science. 2020. doi: 10.1126/science.aax7007
  12. Nauka L. Laplace PS Discourses on the system of the world. 1982. https://tinyurl.com/2r9nxebt
  13. Dubrovskii VA. An elastic model of a physical vacuum. Dokl Acad Science USSR. 1985;282(1):83. https://tinyurl.com/2kn7avha
  14. Turyshev SG. Experimental tests of general relativity: Recent progress and future directions-Physics-Uspekhi. 2009;52. https://tinyurl.com/4cz6u26v
  15. Konstantinov S. Violation of the equivalence principle and the boundary of Einstein’s general relativity. International Journal of Advanced Research in Physical Science. 2018;5(2):18-24. https://tinyurl.com/tj8av7tv
  16. Florentin S. Unsolved problems in special and general relativity. Education Publishing & Journal of Matter regularity. Beijing. 2013.
  17. Kupryaev NV. Concerning the paper by A. Einstein. Explanation of the perihelion motion of mercury from the general theory of relativity. M: Russian Physics Journal. 2018;61. doi: 10.1007/s11182-018-1444-0
  18. Einstein A. Explanation of the perihelion motion of mercury from the general theory of relativity. The collected papers of Albert Einstein. Princeton University. 1915.
  19. Physics of the cosmos. Moscow: Soviet Encyclopedia. 1986.
  20. Konstantinov SI. Calculation method the value of the gravitational constant for the non-equilibrium system of mercury-Sun. International Journal of Advanced Research in Physical Science. 2019;5(6)1-5. https://tinyurl.com/47pveny6

Comments

Publish with JBRES — Peer-reviewed, multidisciplinary Open Access with rapid review, DOI, and global visibility.
Double-Blind CrossRef DOI Discoverable
Submit Manuscript Membership