It could be a universe size nova from one large high density black hole and dark core region. Or many cores shocked into collapse and explosions and burning.

https://www.youtube.com/watch?v=HRqBGnSxzyI

https://x.com/RichardKCollin2/status/1840621101530964339

It could be a universe size nova from one large high density black hole and dark core region. Or many cores shocked into collapse and explosions and burning.

Not infinite, a finite but large expansion. Probably a nova in a universe size collection of black holes. It does not have to be a singularity. And the collisions with condensations can happen in any collection of black holes, neutron stars, and other dense cores. How many non-intersecting stable orbits of black holes could you compress into a sun sized region? If you allow relativistic velocities. That ought to be a simple calculation these days. And when, if a black hole is not a singularity but stable with rotation and magnetic field, would the density exceed the gluon plasma density needed to convert to a crystalline form of gluon – stable lattices?

If a universe sized nova began at those energy densities, it would have faster than light shock waves in the vacuum and send out that first, then speed of light shock waves, then neutrinos and heavier matter. And much of it would form new reactions, release old energies, stored from a universe of time of gravitational contraction, magnetic interactions, nuclear sparks and evolution of stars to cores. How many cores might begin new stars jump-starting a long gradual accumulation of mass, and go directly to accretion and growth of central black holes again? Could our own sun have a black hole core or cores? Check the surface knots in the magnetic ropes. (That is what they call it, magnetic ropes).

It is not impossible to recalculate the mass and strength of stars and planets with nonlinear gravitational, magnetic and other forces. It means using magnetic, coulomb, and gravitational models as one, not many. Most of the information is available, but an array of atom interferometer detectors and maybe some “quantum” detectors can look inside the sun. The neutrino detectors and be upgrades using stable magnetic lattices. Groups are working on KiloTesla and MegaTesla field generators. Many things that were “impossible” before AIs are now becoming routine. And all the technologies have been growing faster and raster. That is why I spent 26 years to map the Internet and all technologies. Now I am not watching the Internet any more. I am going to watch the show.

All central black hole regions should have internal condensation collisions that emit strong gravitational shocks. Many of the dark empty regions are likely not empty, just only cycling through stellar evolution based on recycled cores and accretion. I was going to check a couple of years ago, but the AIs cannot do basic math, let alone keep track of many small things and relations precisely. You should be able to check, or ask your friends.

[ This also describes global conflicts. When high density corporate entities collapse and everyone uses AI for real for everything. ]

Richard Collins, The Internet Foundation

Richard K Collins

About: Richard K Collins

The Internet Foundation Internet policies, global issues, global open lossless data, global open collaboration


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