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Year 2018, Volume: 2 Issue: 2, 127 - 143, 29.12.2018

Sergey G. Fedosin

https://doi.org/10.29002/asujse.433947
Cited By: 3

Abstract


References

  • [1] S.G. Fedosin, About the cosmological constant, acceleration field, pressure field and energy. Jordan Journal of Physics 9(1) (2016) 1-30.
  • [2] S.G. Fedosin, The metric outside a fixed charged body in the covariant theory of gravitation. International Frontier Science Letters 1(1) (2014) 41-46.
  • [3] S.G. Fedosin, The integral energy-momentum 4-vector and analysis of 4/3 problem based on the pressure field and acceleration field. American Journal of Modern Physics 3(4) (2014) 152-167.
  • [4] M. Tegmark, et al (the SDSS collaboration), Cosmological parameters from SDSS and WMAP. Physical Review D 69(10) (2004) 103501-103501.
  • [5] S. G. Fedosin, The radius of the proton in the self-consistent model. Hadronic Journal 35(4) (2012) 349-363.
  • [6] A. Salam, J. Strathdee, Confinement through tensor gauge fields. Physical Review D 18 (12) (1978) 4596-4609.
  • [7] R. L. Oldershaw, Discrete scale relativity. Astrophysics and Space Science 311(4) (2007) 431-433.
  • [8] S. G. Fedosin, Fizika i filosofiia podobiia ot preonov do metagalaktik. Perm, pages 544 (1999). ISBN 5-8131-0012-1.
  • [9] V. A. Fock, The theory of space, time and gravitation. Macmillan. (1964).
  • [10] S. G. Fedosin, Relativistic energy and mass in the weak field limit. Jordan Journal of Physics 8(1) (2015) 1-16.
  • [11] S. G. Fedosin, The virial theorem and the kinetic energy of particles of a macroscopic system in the general field concept. Continuum Mechanics and Thermodynamics 29(2) (2016) 361-371.
  • [12] S. G. Fedosin, Estimation of the physical parameters of planets and stars in the gravitational equilibrium model. Canadian Journal of Physics 94(4) (2016) 370-379.
  • [13] S. G. Fedosin, The physical theories and infinite hierarchical nesting of matter, Volume 1, LAP LAMBERT Academic Publishing, pages 580 (2014). ISBN 978-3-659-57301-9.
  • [14] J. Martin, Everything you always wanted to know about the cosmological constant problem (but were afraid to ask). Comptes Rendus Physique 13(6) (2012) 566-665.
  • [15] S. G. Fedosin, The graviton field as the source of mass and gravitational force in the modernized Le Sage’s model. Physical Science International Journal 8(4) (2015) 1-18.
  • [16] S. G. Fedosin, The force vacuum field as an alternative to the ether and quantum vacuum. WSEAS transactions on applied and theoretical mechanics 10 (2015) 31-38.
  • [17] S. G. Fedosin, The charged component of the vacuum field as the source of electric force in the modernized Le Sage’s model. Journal of Fundamental and Applied Sciences 8(3) (2016) 971-1020.

Energy and Metric Gauging in the Covariant Theory of Gravitation

Year 2018, Volume: 2 Issue: 2, 127 - 143, 29.12.2018

Sergey G. Fedosin

https://doi.org/10.29002/asujse.433947
Cited By: 3

Abstract

Relations for the relativistic energy and metric are analyzed inside and outside the body in the framework of the covariant theory of gravitation. The methods of optimal energy gauging and equations for the metric are chosen. It is shown that for the matter inside the body a procedure is required to average the physical quantities, including the cosmological constant and the scalar curvature. For the case of the relativistic uniform system, the cosmological constant and the scalar curvature are explicitly calculated, which turn out to be constant values inside the body and are assumed to be equal to zero outside the body. Comparison of the cosmological constants inside a proton, a neutron star and in the observable Universe allows us to explain the cosmological constant problem arising in the Lambda-CDM model

Keywords

Cosmological constant Scalar curvature Relativistic uniform system Gravitational field Acceleration field Pressure field

References

  • [1] S.G. Fedosin, About the cosmological constant, acceleration field, pressure field and energy. Jordan Journal of Physics 9(1) (2016) 1-30.
  • [2] S.G. Fedosin, The metric outside a fixed charged body in the covariant theory of gravitation. International Frontier Science Letters 1(1) (2014) 41-46.
  • [3] S.G. Fedosin, The integral energy-momentum 4-vector and analysis of 4/3 problem based on the pressure field and acceleration field. American Journal of Modern Physics 3(4) (2014) 152-167.
  • [4] M. Tegmark, et al (the SDSS collaboration), Cosmological parameters from SDSS and WMAP. Physical Review D 69(10) (2004) 103501-103501.
  • [5] S. G. Fedosin, The radius of the proton in the self-consistent model. Hadronic Journal 35(4) (2012) 349-363.
  • [6] A. Salam, J. Strathdee, Confinement through tensor gauge fields. Physical Review D 18 (12) (1978) 4596-4609.
  • [7] R. L. Oldershaw, Discrete scale relativity. Astrophysics and Space Science 311(4) (2007) 431-433.
  • [8] S. G. Fedosin, Fizika i filosofiia podobiia ot preonov do metagalaktik. Perm, pages 544 (1999). ISBN 5-8131-0012-1.
  • [9] V. A. Fock, The theory of space, time and gravitation. Macmillan. (1964).
  • [10] S. G. Fedosin, Relativistic energy and mass in the weak field limit. Jordan Journal of Physics 8(1) (2015) 1-16.
  • [11] S. G. Fedosin, The virial theorem and the kinetic energy of particles of a macroscopic system in the general field concept. Continuum Mechanics and Thermodynamics 29(2) (2016) 361-371.
  • [12] S. G. Fedosin, Estimation of the physical parameters of planets and stars in the gravitational equilibrium model. Canadian Journal of Physics 94(4) (2016) 370-379.
  • [13] S. G. Fedosin, The physical theories and infinite hierarchical nesting of matter, Volume 1, LAP LAMBERT Academic Publishing, pages 580 (2014). ISBN 978-3-659-57301-9.
  • [14] J. Martin, Everything you always wanted to know about the cosmological constant problem (but were afraid to ask). Comptes Rendus Physique 13(6) (2012) 566-665.
  • [15] S. G. Fedosin, The graviton field as the source of mass and gravitational force in the modernized Le Sage’s model. Physical Science International Journal 8(4) (2015) 1-18.
  • [16] S. G. Fedosin, The force vacuum field as an alternative to the ether and quantum vacuum. WSEAS transactions on applied and theoretical mechanics 10 (2015) 31-38.
  • [17] S. G. Fedosin, The charged component of the vacuum field as the source of electric force in the modernized Le Sage’s model. Journal of Fundamental and Applied Sciences 8(3) (2016) 971-1020.
There are 17 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Article
Authors

Sergey G. Fedosin 0000-0003-3627-2369

Publication Date December 29, 2018
Submission Date June 14, 2018
Acceptance Date November 26, 2018
Published in Issue Year 2018Volume: 2 Issue: 2

Cite

APA Fedosin, S. G. (2018). Energy and Metric Gauging in the Covariant Theory of Gravitation. Aksaray University Journal of Science and Engineering, 2(2), 127-143. https://doi.org/10.29002/asujse.433947

Cited By

Generalized Four-momentum for Continuously Distributed Materials
Gazi University Journal of Science
https://doi.org/10.35378/gujs.1231793
What should we understand by the four-momentum of physical system?
Physica Scripta
https://doi.org/10.1088/1402-4896/ad3b45
The potentials of the acceleration field and pressure field in rotating relativistic uniform system
Continuum Mechanics and Thermodynamics
Sergey G. Fedosin
https://doi.org/10.1007/s00161-020-00960-7
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