International Journal of Physics
ISSN (Print): 2333-4568 ISSN (Online): 2333-4576 Website: http://www.sciepub.com/journal/ijp Editor-in-chief: B.D. Indu
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International Journal of Physics. 2014, 2(2), 30-33
DOI: 10.12691/ijp-2-2-1
Open AccessArticle

Analysis on Hawking Radiation and Steady State Universe by Siva’s Theories

Siva Prasad Kodukula1, 2,

1Adviser- Centre for Innovation & Discovery, Bheemunipatnam-, India

2Employee of Jindal Steel & Power Ltd, Angul, India

Pub. Date: April 11, 2014

Cite this paper:
Siva Prasad Kodukula. Analysis on Hawking Radiation and Steady State Universe by Siva’s Theories. International Journal of Physics. 2014; 2(2):30-33. doi: 10.12691/ijp-2-2-1

Abstract

Every black hole will have a singularity at its center. The mass ‘M’ and Horizon radius ‘R’ are inter related by an equation M3 = 2.914× 1038 R. As long as it remains as a stable black hole the mass ‘M’ & Horizon Radius ‘R’ will remain constant with M = 6.58×105 Kgs and R = 9.767×10-22 mts. This is the hole connecting all the singularities of the universe. These are always constant for all black holes of the universe. Heavy black holes will lose mass through this hole and will be pumped to other locations of universe to keep the density of the matter created in steady state with the expansion of the universe. The mass loss calculated is 4.953083423× 105 Kg/sec. The mass loss is almost same as that of life time of black hole in Hawking Radiation. Thus the mass loss of black hole is not through hawking radiation it is through the singularity point of black hole.

Keywords:
Quantum Gravity space time fluid K-Suryon singularity of black holes Hawking Radiation universe

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References:

[1]  Adam R. Brown, “Tensile Strength and the Mining of Black Holes” Phys. Rev. Lett. 111, 211301 (2013). http://arxiv.org/abs/1207.3342. [Accessed March. 1, 2014].
 
[2]  George, F R Ellis. “Astrophysical black holes may radiate but they do not evaporate.” arXiv: 1310.4771v2 [gr-qc] 20 Oct 2013 Available: http://arxiv.org/pdf/1310.4771.pdf. [Accessed March. 2, 2014].
 
[3]  Hawking,S.W., “Particle creation by Black holes”. commun. 43, 199 -220 (1975) maths.phys. Available: http://arxiv.org/pdf/hep-th/9203052.pdf. [Accessed March. 2, 2014].
 
[4]  Hawking, S.W. & Penrose. The Nature of space and Time, Princeton University press, pp. 38-60, 1998.
 
[5]  Kodukula, S.P., Double Relativity Effect &Film Theory of the Universe. Raleigh,NorthCorolina:Lulu.com, pp 13-32, 50, 2009.
 
[6]  Kodukula S.P,Heart of the God with Grand proof Equation - A classical approach to quantum theory. Raleigh, NorthCorolina:Lulu.com, pp3-9, 6, 2009.
 
[7]  Kodukula, S.P, “Derivation of Siva’s Constant of Physics”, International Journal of Advancements in Research & Technology’, 2(1), Jan. 2013. Available: http://www.ijoart.org/docs/Derivation-of-Sivas-Constant-K-of-Physics.pdf. [Accessed March. 1, 2014].
 
[8]  Kodukula, S.P, “Siva’s Classical Equation for Space Time and Matter”, International Journal of Advancements in Research & Technology’, 2(8), Aug. 2013. Available: http://www.ijoart.org/docs/Sivas-Classical-Equation-for-Space-Time-and-Matter.pdf. [Accessed March. 1, 2014].
 
[9]  Kodukula. S.P, “Siva's Theory of Quantum Gravity”. American Journal of Modern Physics, 3(1), 16-19. Jan. 2014. [Accessed March. 1, 2014].
 
[10]  Kodukula,S.P,“Siva’s Equation for Singularity of Black Holes”. International Journal of Astrophysics and Space Science,1(4),16-19. 2013.
 
[11]  Kodukula, S.P, “New Discovery about Prediction of a Particle ‘K-Suryon’ as Basic Building Block of Mass”. International Journal of physics, 2(1), 12-14. 2013,
 
[12]  Timothy A. Davis et al., “A black-hole mass measurement from molecular gas kinematics in NGC4526” arXiv:1301.7184v1 [astro-ph.CO] 30 Jan 2013 Available: http://arxiv.org/pdf/1301.7184.pdf [Accessed March. 2, 2014].
 
[13]  H. Bondi & T. Gold, “The Steady State Theory of the Expanding Universe” Monthly Notices of Royal Astronomical Society, Vol.108, (1948). Available: http://adsabs.harvard.edu/full/1948MNRAS.108..25B [Accessed April 5,2014].