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Black hole electron

In the thick green area around the merging black holes the stars seem to warp in a very odd manner compared to the rest of the stars. In the Since this (vastly) exceeds the Schwarzschild radius, the Reissner–Nordström metric has a naked singularity.If we include the effects of the electron's rotation using the More recently, Alexander Burinskii has pursued the idea of treating the electron as a Kerr–Newman naked singularity.In the mathematical description of general relativity, the The following outline is provided as an overview of and topical guide to black holes: Comprehensive physics and astronomy online education, research and reference web site founded in 1995 by a physicist Anton Skorucak. String theory, Quantum field theory, Quantum mechanics, General relativity, Loop quantum gravity

In so far as a free electron may be considered to be a particle, it can be considered to be a black hole. The electron, if it were a black hole, would have to be smaller than 1x10-57 meters, quite a bit smaller than we've ever measured! In the Furthermore, since the electron is quantum mechanical in nature, any description purely in terms of general relativity is inadequate. To properly describe an electron, you need two spinors coupled for the Dirac Electron, where the coupling constant is the mass of the electron. r_{q} = \sqrt{\frac{q^{2}G}{4\pi\epsilon_{0} c^{4}}}r \approx \frac{\alpha \hbar c}{10^6 GeV} \approx 10^{-24} m Spacetime, Stephen Hawking, Riemannian geometry, Quantum gravity, Schwarzschild metric But, another reason that the electron is not considered a black hole, even assuming that its radius is infinitely small, is that it obeys the laws of quantum field theory. Black hole electron. To take them into account, while still ignoring quantum effects, one should use the To see that this is so, it suffices to consider the electron's charge and neglect its angular momentum. However, Carter's calculations also show that a would-be black hole with these parameters would be 'If one ignores the electron's angular momentum and charge, as well as the effects of Thus, if we ignore the electric charge and angular momentum of the electron, and naively apply general relativity on this very small length scale without taking quantum theory into account, a black hole of the electron's mass would have this radius.In reality, physicists expect quantum gravity effects to become significant even at much larger length scales, comparable to the So, the above purely classical calculation cannot be trusted.
Could the inside of a black hole be a result of electrons jumping orbitals at such a high rate of exchange that near infinite mass is created?

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Rather, when X-ray energy is aimed at a molecule, it strips away so many of the electrons that it creates a void that then sucks in all the electrons from nearby atoms — in black-hole fashion. WikiProject Physics may be able to help recruit one.

There is no evidence that the electron is a black hole (or naked singularity).

It would then have a number of properties in common with black holes. Another question I have is this. This value suggests that an electron black hole would be When the core's photons become extremely energetic, they can morph into an electron …

Two black holes likely collided and merged to create a more massive black hole. The black hole was discovered because its merger with a slightly less massive companion emitted gravitational waves.

The two black holes that created the intermediate-sized one, therefore, might have been formed from previous merger events too. A black hole cannot evolve into an electron.

However, from what we know free electrons and theoretical black holes are both ideals that cannot not exist in nature except by appearance within limited contexts. The Black hole electron both does not exist and is all that we see. This article was sourced from Creative Commons Attribution-ShareAlike License; additional terms may apply. DonJStevens 20:21, 4 January 2008 (UTC) This article or section is in need of attention from an expert on the subject. The electron, if it were a black hole, would have to be smaller than 1x10-57 meters, quite a bit smaller than we've ever measured!

So for these massive stars, which would be expected to leave black holes in this mass range, pair instability prevents black hole formation."

String theory, Quantum field theory, Quantum mechanics, General relativity, Loop quantum gravity By using this site, you agree to the Terms of Use and Privacy Policy. So if the electron has a radius as small as this, it would become a gravitational singularity.

These completely disrupt the star, leaving nothing behind. Furthermore, even classically, electric charge and angular momentum affect the properties of a black hole. How to create a black hole.

That being said, a black hole and a neutron can both be described as uncoupled spinors. Quantum mechanics, Electromagnetism, Energy, Astronomy, Thermodynamics Still, theoretical interest in this possibility remains alive.

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