"Two colossal black holes slammed together, forming a 225-solar-mass behemoth so extreme it shouldn’t exist under current theories. Credit: SciTechDaily.com" (Cosmic Heavyweights Collide – LIGO Detects Largest, Fastest-Spinning Black Holes Yet)
Spinning black holes send gravitational waves. This means the black hole’s spin makes it bind energy into it. Or in other words, a black hole collects energy from around it and then turns it into kinetic energy. Theoretically, gravitational waves can form in particles that are just at the edge of the event horizon.
The model is taken from the centripetal force. When some object starts to spin very fast, that movement pulls energy out from its core to the object’s shell. When spin turns fast enough, energy that travels from the object’s core into its shell breaks that object. In normal cases, atoms in those objects act like antennas.
And they conduct energy out of the object. In the case of black holes, the gravitational field and interaction around it are so massive and powerful. That ultimate energy field around black holes is so powerful that the energy that comes from black holes will not pass through the material disk easily. The black hole’s interaction is very strong. It pulls material and wave movement from such a large area that the black hole cannot break the whirl around it. Gravitation forms when the gravitational center binds quantum fields into it.
Sometimes a black hole is separated from its material disk. And that makes it possible that gravitational waves can escape from its event horizon. That happens when a black hole pulls an extraordinarily massive object inside it. When that material and energy boost ends, the black hole sends its extra energy into the space around it. That is one model of the black hole and its ultimate interaction.
But then we can return to the hollow ball model. Or, rather, saying a spinning hollow ball model where the fast spinning ball pulls energy into it. That means the hollow ball’s shell turns energy around it into its structure. The ball also pulls fields from inside it into the ball’s shell. Or, actually, energy flow always travels to the lower energy side. That means that if the space outside the ball is at zero energy level. That spinning ball can create the energy of a false vacuum. And when that false vacuum falls, it can collect a lot of energy and material into the same point.
When we think about models. Some so-called dark dwarfs collect dark matter around them, and then collisions between those dark matter particles or weakly interacting massive particles, WIMPs. The annihilation or collisions of those packed particles can cause a situation where dark energy rises so high that the dark dwarf can shine because of those dark matter interactions. When those impacts happen often enough, that thing causes a situation where dark energy interaction with material turns strong enough that it causes visible material to shine.
We must realize that there can be a similar interaction between dark matter and visible material that is much stronger around black holes. There is a possibility that the dark energy that can form in that interaction can push all other interactions, or at least electromagnetic interactions, away from the black hole. That can cause the footstep at the front of the particle.
Normally, when a particle faces electromagnetic radiation, that radiation or wave movement makes a shadow behind that particle. The electromagnetic radiation pushes particles into that shadow.
That means the electromagnetic shadow that pulls particles out from the radiation center turns into a higher energy level than the area at the front of the particle. That thing makes the pulling effect so strong that the particle cannot escape from it.
The particle sends a photon at the front of it. Or the photon that forms at the back of the particle turns so high energy that it forms the shadow or channel at the front of the particle. And that thing causes the particle to start to fall into the black hole. It’s possible that around normal gravity centers, only the field transports the particle. But when the particle comes closer to the black hole, there is something that causes the shadow to move in front of the particle. That shadow or quantum low pressure will raise the force of gravity.
https://scitechdaily.com/cosmic-heavyweights-collide-ligo-detects-largest-fastest-spinning-black-holes-yet/
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