0 Members and 1 Guest are viewing this topic.
If 1.022 MeV of rotational kinetic energy is extracted from the hole in order to produce a positron-electron pair, then the black hole can only get 0.511 MeV of that energy back by consuming one of the particles. It would only get back half of the energy that it expended.Any method you use to try to get a system to create net energy is a violation of the first law of thermodynamics. You might as well stop trying.
Even if you do have a valid way of getting a black hole to produce matter and eject it the way you want it to, that still ignores the fact that a black hole cannot generate unlimited mass-energy. The mechanisms are irrelevant. The specifics are unimportant. The first law of thermodynamics simply won't let your model work. No amount of figuring will allow you to get more mass-energy out of the black hole than was there to begin with. Doing so would violate the first law by definition.
As the universe age is infinite
You already have a thread about this. Go post in that one.
I believe that Super Massive Black Hole [SMBH] is the magnetic hub around which the galaxies stars are spun in spirals using the magnoflux spin effect.
If star remnant anti-matter falls into the hub its charges are annihilated and the extra inertia energy is ejected downwards
a spinning black hole with a net electric charge
It is thought that the magnetic field comes from the highly conductive plasma of the in-spiraling accretion disk.
The references you make to the observations of observatories witnessing the formation of large magnetic fields at the heart of most galaxies is excellent news.
In fact I believe that Super Massive Black Hole [SMBH] is the magnetic hub around which the galaxies stars are spun in spirals using the magnoflux spin effect.
If planetary matter falls into the hub its charges are annihilated with the extra rotational spin energy being ejected upwards. If star remnant anti-matter falls into the hub its charges are annihilated and the extra inertia energy is ejected downwards
Similar particle jet stream stretches 27,000 light-years from the center of the Milky Way galaxy:https://www.cfa.harvard.edu/news/2012-16"The newfound jets may be related to mysterious gamma-ray bubbles that Fermi detected in 2010. Those bubbles also stretch 27,000 light-years from the center of the Milky Way.
A black hole will not have a significant electric charge, as the charge will be immediately neutralised by the surrounding matter.- This applies to both spinning and non-spinning black holesIt is thought that the magnetic field comes from the highly conductive plasma of the in-spiraling accretion disk.
There is no evidence that stars contain significant antimatter.
The magnetic force around the SMBH is so massive that it works as a magnetic shield around it.
As I have stated, a spinning SMBH can generate ultra high magnetic force. We see it clearly.
QuoteAs I have stated, a spinning SMBH can generate ultra high magnetic force. We see it clearly.No, as I just pointed out.
. Black Holes & Time Warps states that a spinning black hole with a net electric charge will have a magnetic field.
QuoteIt is thought that the magnetic field comes from the highly conductive plasma of the in-spiraling accretion disk.Although you are correct, trying to convince Dave of that is futile.
So, do you really consider that an accretion disc can generate magnetic field that is stronger than a spinning SMBH hole with a net electric charge?
A black hole will not have a significant electric charge, as the charge will be immediately neutralised by the surrounding matter.
QuoteSo, do you really consider that an accretion disc can generate magnetic field that is stronger than a spinning SMBH hole with a net electric charge?Who cares?The smbh won't have much of a charge, so the point is moot.
The spin of the SMBH generates ultra powerful magnetic field. "A team of researchers has measured the magnetic fields in the vicinity of the suppermassive black hole at the center of NGC 1052."https://scitechdaily.com/researchers-measure-magnetic-fields-in-the-vicinity-of-a-black-hole/Two particle jets shoot out from the heart of active galaxy NGC 1052 at the speed of light, apparently originating in the vicinity of a massive black hole.The team concludes that the magnetic fields provide enough magnetic energy to power the twin jets.Similar particle jet stream stretches 27,000 light-years from the center of the Milky Way galaxy:https://www.cfa.harvard.edu/news/2012-16"The newfound jets may be related to mysterious gamma-ray bubbles that Fermi detected in 2010. Those bubbles also stretch 27,000 light-years from the center of the Milky Way. However, where the bubbles are perpendicular to the galactic plane, the gamma-ray jets are tilted at an angle of 15 degrees. This may reflect a tilt of the accretion disk surrounding the suppermassive black hole."Finkbeiner estimates that a molecular cloud weighing about 10,000 times as much as the Sun would be required"In order to blow those kind of particles jet stream to that distance of 27,000 LY it is clear that an Ultra Magnetic field is needed.ONLY a spinning SMBH can generate that kind of magnetic field!!!