LHC black hole risk/a critique of Correction to the Higher Dimensional Black Hole Entropy
(Review Paper) Cited in LHC black hole risk/a critique of Correction to the Higher Dimensional Black Hole Entropy
Correcting the Black Hole Theory[edit | edit source]
Due to black holes being unstable, they are deemed to be safe and less likely to destroy earth. Black holes are not likely to cause harm because they have powerful gravity that can prevent anything from escaping, even light.  .
Methods[edit | edit source]
Due to all the experimental equations, the Hawkin's temperature was derived and therefore explains the thermodynamics of a black hole. We use the thermodynamics laws to explain the black hole because defines the characteristics and fundamental physical quantities of a black hole with it's temperature, energy, and entropy.
Results[edit | edit source]
According to quantum mechanics, the black holes would cause no danger. The black holes are microscopic and could evaporate quickly following their formation. The equations used by physicists explains the different thermodynamics of a black hole and how it conveys no danger to earth.
References[edit | edit source]
- Farmany, A., Abbasi, S., Naghipour, A. (2008) Correction to the Higher Dimensional Black Hole Entropy. ACTA PHYSICA POLONICA A 114 (4) http://przyrbwn.icm.edu.pl/APP/PDF/114/a114z401.pdf
- Gubser S. S. and Mitra I. (2001) The evolution of unstable black holes in anti-de Sitter space, Journal of High Energy Physics. 018 http://iopscience.iop.org/1126-6708/2001/08/018