American Journal of Astronomy and Astrophysics
Volume 6, Issue 3, September 2018, Pages: 49-56
Received: Aug. 28, 2018;
Accepted: Sep. 10, 2018;
Published: Oct. 10, 2018
Views 833 Downloads 109
Haitao Gao, Institute of Chemical Industry, Beifang University of Nationalities, Yinchuan, China
The space-time structure of gravity mass is analyzed in this paper. It is proposed that "spin angular momentum and rotational angular momentum" are intrinsic properties of gravitational mass, and "curvature and gravitational effect" are representations of gravitational mass. The theoretical basis of the universal gravitation constant (G=1/16𝝿C) is found by studying the expression of gravity mass, and the curvature equation and time effect equation of gravity space are derived. In comparison with the experimental results of general relativity, The relative error of the calculated result of curvature equation of gravity space with the observation result of gravitational deflection of starlight near the sun are less than 8%, Otheres experiments were quite different. However, the intrinsic correlation of the gravitational redshift experiment of the γ radiation on the surface of the earth is consistent with the calculation results of the time curvature equation. The results of this study show that space curvature is the root of gravity. The propagation of gravity is the transfer of space curvature, and there is no "graviton" that transmits the gravitational interaction. Gravitational effects can be observed through supernova explosions and neutron star formation in the universe.
Representation of Gravity and the Intrinsic Property of the Gravitational Mass, American Journal of Astronomy and Astrophysics.
Vol. 6, No. 3,
2018, pp. 49-56.
Copyright © 2018 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Carmeli, M.: Classical Field-General Relativity and Gauge Theory(1982).
Adler, R., Bazin, M and Schiffer, M.: Introduction to General Relativity, Zndedi (1975).
arXiv:0909.3583v4 Virgo Collaboration: B. P. Abbott, R. Abbott, F. Acernese, Etc. Searches for gravitational waves from known pulsars with S5 LIGO data, LIGO Scientific Collaboration, Etc.
Lawrence M. Krauss, Frank Wilczek. Using Cosmology to establish the Quantization of Gravity Phys. Rev. D 89,047501(2014).
Haitao Gao, The Matter Spatial Theory [M] Xinhua Book Co. Ltd. June 2018 Hong Kong.
Haitao Gao, The space-time transformation in the velocity field, Beifang University of Nationalities.
F. W. Dyson, A. S. Eddington and C. Davidson, A Determination of the Deflection of Light by the Sun's Gravitational Field, from Observations Made at the Total Eclipse of May 29, 1919 Phil. Trans. R. Soc. Lond. A 1920 220.
Brault J. The gravitational redshift in the solar spectrum. Bull Amer Phys S OC, 1963, 8:28.
J E, Roddier F. Precise observation of the profile of the fraunhofer strontium resonance line evidence for the gravitational red shift on the sun. Phys Rev Lett, 1961, 7:437.
Granshow TE, et al. Measurement of the gravitational red shift using the Mossbauer effect in Fe57. Phys Rev Lett, 1960, 4(4):163.
Pound R V, Snider J L. Effect of gravity on gamma radiation. Phys Rev B, 1965, 140:788.
I. I. Shapiro, et al, Phys. Bev. Lett. 20, 1205(1968).
I. I. Shapiro, et al, Phys. Bev. Lett. 26, 1132(1971).
R. W. Hellings, in Proc. 10 the International Conference on General Relativity and Gravitation, ed. B. Bertotti et. al. (Consiglio Nazionale Delle Ricerche-Rome, 1983).