Hawking radiation: Difference between revisions
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(Created page with "<math>{\displaystyle T_{\mathrm {H} }={\frac {\hbar c^{3}}{8\pi GMk_{\mathrm {B} }}}}</math> <math>T_{\mathrm {H} }= \frac {\rho_h \hbar c^{3}}{8\pi c^2 \beta M k_{\mathrm {B} }}</math>") |
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Hawking radiation is not about entropy a black hole. It's about entropy of atom nucleus. | |||
<math>{\displaystyle T_{\mathrm {H} }={\frac {\hbar c^{3}}{8\pi GMk_{\mathrm {B} }}}}</math> | <math>{\displaystyle T_{\mathrm {H} }={\frac {\hbar c^{3}}{8\pi GMk_{\mathrm {B} }}}}</math> | ||
<math>T_{\mathrm {H} }= \frac {\rho_h \hbar c^{3}}{8\pi c^2 \beta M k_{\mathrm {B} }}</math> | <math>T_{\mathrm {H} }= \frac {\rho_h \hbar c^{3}}{8\pi c^2 \beta M k_{\mathrm {B} }}</math> | ||
<math>T_{\mathrm {N} }={\frac {\hbar^2 \beta c}{8\pi G m_p^2 k_{\mathrm {B} }}}</math> | |||
Latest revision as of 07:12, 8 July 2024
Hawking radiation is not about entropy a black hole. It's about entropy of atom nucleus.
