Universum-size Coriolis effect and black hole’s lost hair cause questions.

   Universum-size Coriolis effect and black hole’s lost hair cause questions. 

The Coriolis effect and the spinning galaxies raise a question: do we live in a black hole? 

A black hole’s hair means energy eruptions that form near the black hole. So, we could call those things black holes’ flares. Researchers didn’t find them, but theoretically, those things could form when the Coriolis effect, also known as the Coriolis force, at the black hole’s event horizon forms a whirl in the black hole’s gravity field. And then that opens the hole in the gravity field. But there is no evidence about those events. A black hole is an extreme object with a powerful gravity field. Natural laws exist. And affect those objects. So there must be a Coriolis effect at its fast-spinning singularity, but that requires the singularity’s existence in a black hole. Or that the Coriolis effect could have an effect on the extremely powerful, or dense gravity, and the other three fundamental interaction fields. 

So the Coriolis force can make whirls in the wave movement, and that is one thing that makes that force interesting. Earth's atmosphere's Coriolis force causes a situation. That tropical hurricanes spin in the right at north from the equator. And to the opposite direction on the south side. On Earth Coriolis effect affects the large-scale movements. But near a black hole, the spacetime is much denser, and all interactions are far stronger than on Earth. That means there should be a very strong Coriolis effect. It can turn electromagnetic fields into whirling. And turn those whirls in a certain direction. And the directions should be similar to they are on Earth. 

The Coriolis effect is a virtual force. that makes gases and liquids create whirls that rotate in a certain direction. The Coriolis effect is visible on the spinning objects. The whirls that this virtual force forms always spin in the same direction. On extreme objects. The Coriolis effect is stronger than it is on Earth. And on neutron stars and other extremely dense objects, that virtual force can stretch. And turn even steel into whirls. And finally, that Corialis effect around the black holes can turn even gravity fields into whirls. 

That makes some JWST telescope observations very interesting. Most galaxies rotate clockwise. And that causes the idea. There is some kind of layer at the edge of the universe. If those long-distance galaxies rotate clockwise, that tells us that there can be an enormous plasma wall. That connects those galaxies on the extreme ball-shaped spinning object. Another version is this. Maybe we live in a black hole. If galaxies form near this hypothetical black hole event horizon, the Coriolis effect can make this event true. That is one of the most fundamental observations that forms one of the most exciting theories in the history of cosmology. 

Astrophysicists didn’t find hairs on black holes. 

But then we can go back to the black hole’s hair. The black hole’s flares, or energy tornadoes or energy beams, destroy structures when they fall into the black hole. But can a black hole have those hairs anyway? The black hole’s structure, which could be like a gravitational soliton, can explain why those researchers cannot see that hair. There are three possible ways that a black hole can hide its hair. 

1) A black hole can have “Samurai-style hair”. In that model, those hairs can form only around the black hole’s spin axis. So in that case, the relativistic jet that goes out from the black hole forms around the black hole’s hair. 

2) A black hole has thick hair. In that case, the black hole’s hair is thick around the event horizon. That means the black hole has slick back hair. 

3) Soft hair means that there are only a few of those flares. 

4) A black hole can have black hair. That means the black hole’s hair is a flare-type gravitational wave eruption from the black hole. 

The gravitational flares can also be destructive. Traveling gravity waves or gravity tornadoes can collect electromagnetic fields around it. That forms a high-energy area around those whirls. The thing is that the fast-spinning electromagnetic field. And, if there is some kind of string-shaped energy beam that travels in the middle of it. 

Can form a situation where the structure acts as a gravity center. The string in the middle of that tornado acts like a thermal pump that transports energy out from the middle of the beam. Because energy always travels to lower energy areas, that means there comes replacing energy from the environment. And that packs energy around that energy tornado. 

The relativistic jet can form in cases where high-energy radiation interacts with an electron cloud. That makes electromagnetic shadows on the opposite side of those electrons. Those shadows can connect together, and that collects energy from around that energy beam. But the electromagnetic string that can transport energy out from the beam faster than the shell moves can also create a situation that forms a high-power energy beam. 

https://www.quantamagazine.org/astrophysicists-find-no-hair-on-black-holes-20250827/

https://www.smithsonianmag.com/smart-news/james-webb-space-telescope-reveals-that-most-galaxies-rotate-clockwise-180986224/

Image: Qaunta magazine