The Gravitational Radius of a Black Hole: Difference between revisions
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==Abstract== | ==Abstract== | ||
It is shown that the equation for the calculation of the Schwarzschild's radius of a black hole does not account the photon's wavelength. If we solve this task in the frame of the space-matter-time unity, we get a new equation for the calculation of black hole's radius that takes into account the wavelength of the electromagnetic radiation (photons). This new mathematical model allows us to calculate gravitational radius of a black hole. These results require us to reconsider the astronomical perspective that we have previously taken.[[Category:Scientific Paper]] | It is shown that the equation for the calculation of the Schwarzschild's radius of a black hole does not account the photon's wavelength. If we solve this task in the frame of the space-matter-time unity, we get a new equation for the calculation of black hole's radius that takes into account the wavelength of the electromagnetic radiation (photons). This new mathematical model allows us to calculate gravitational radius of a black hole. These results require us to reconsider the astronomical perspective that we have previously taken. | ||
[[Category:Scientific Paper|gravitational radius black hole]] | |||
[[Category:Gravity]] | [[Category:Gravity]] | ||
[[Category:Cosmology]] | [[Category:Cosmology]] | ||
Revision as of 13:16, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | The Gravitational Radius of a Black Hole |
| Author(s) | Philipp M Kanarev |
| Keywords | black hole, gravity, photon, space, mass, speed of light, electromagnetic radiation |
| Published | 2002 |
| Journal | Journal of Theoretics |
| Volume | 4 |
| Number | 1 |
| No. of pages | 7 |
Abstract
It is shown that the equation for the calculation of the Schwarzschild's radius of a black hole does not account the photon's wavelength. If we solve this task in the frame of the space-matter-time unity, we get a new equation for the calculation of black hole's radius that takes into account the wavelength of the electromagnetic radiation (photons). This new mathematical model allows us to calculate gravitational radius of a black hole. These results require us to reconsider the astronomical perspective that we have previously taken.