Change in entropy of the spinning black holes

• Autorzy: Mahto D. , Singh A. S. , Vineeta K. , Kumar A.
• Języki publikacji: EN

Abstrakty

EN

Aims: To derive an expression for change in entropy of spinning black holes on the basis of the model for the energy of spinning black holes E _BHs= K_BHs R'_s ( Mahto et al. 2011a) & the model for entropy change δS _bh = [wzór]δE ( Mahto et al. 2011b) and then calculate their values for different test spinning black holes. Study Design: Data for the mass of black holes have collected from the research paper entitled :Super massive Black Holes in Galactic Nuclei: Past Present & Future Research(2005), Space Science Reviews by L. Ferrarese & H. Ford and Black holes in Astrophysics(2005), New Journal Physics by R. Narayan. The data for black hole constant for spinning black holes (K _BHs = 1.214x10⁴⁴) is taken from the paper entitled: Study of Schwarzschild radius with reference to the spinning black holes. Bulletin of Pure and Applied Sciences (2011a). Place and Duration of Study: Department of Physics, Marwari College Bhagalpur and University Department of Physics, T.M.B.U. Bhagalpur, between December 2013 and March 2014. Methodology: A theoretical based work using Laptop to calculate the calculation for change in entropy of different test spinning black holes at Marwari College Bhagalpur and the residential research chamber of the first author. Results: The calculation shows that the change in entropy of spinning black holes of the rest masses for stellar – mass black holes (M ~ 5 – 20 Mʘ) in X-ray binaries is 2.483x10 ⁶³ to 39.731x10 ⁶³ J/K and for the super massive Black holes (M ~ 10 ⁶ – 10^9.5 Mʘ) in active galactic nuclei is 9.932x10 ⁷³ to 28.432x10 ⁸⁰ J/K. The nature of the graph for XRBs is the same to the Hawking entropy with the event horizon and straight line for AGN which confirms the validity of equations E_BHs=K_BHs R’_{s and δS bh} = [wzór]δE .Conclusion: The change in energy and entropy of black holes are mainly dependent on the mass and independent of their event horizons.

Słowa kluczowe

EN

Event-horizon; AGN; Entropy & Energy

• Wydawca: Przedsiębiorstwo Wydawnictw Naukowych "DARWIN"
• Czasopismo: International Letters of Chemistry, Physics and Astronomy
• Rocznik: 2014
• Tom: Vol. 13, iss. 2
• Strony: 95--103
• Opis fizyczny: Bibliogr. 17 poz., tab.

Twórcy

autor

Mahto D.

• Department of Physics, Marwari College, T. M. B. U. Bhagalpur -812007, India

autor

Singh A. S.

• University Department of Physics, T. M. B. U. Bhagalpur -812007, India

autor

Vineeta K.

• Department of Education, S.M. College, T. M. B. U. Bhagalpur -812007, India

autor

Kumar A.

• Department of Physics, M.R.J.D. College, Bishnupur, Begusarai -851101, India

Bibliografia

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• [6] Dipo Mahto, Tanveer Ali Khan, Ashok Kumar, Raj Kumar Sah, International Letters of Chemistry, Physics and Astronomy 4 (2014) 12-19
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