What makes the rotation speed of the black hole interesting?

   

 

What makes the rotation speed of the black hole interesting?

The rotation speed of the supermassive black hole in the nucleus of our galaxy seems to be quite slow. And that means that the black hole would be very stable. So that black hole would be so massive that the gas, what it pulls in it cannot move it. Or the gas is dropping through the event horizon at a straight angle. 

But there is one very fascinating idea about the black hole of our galaxy, and that thing is that the slow rotation speed is the reason for superposition. That means that there is a possibility that the supermassive black hole has been split into two black holes, which are connected by the energy bridge. 

The reason why the physicists believe that wormholes are not only stories is the cosmic neural structure. In that structure, something pulls material in the giant fibers (Image II). That means that there is some wire-looking effect, which makes those megastructures, and the wormhole would explain that giant network of gas and dust.

Image II

The black hole in the nucleus in our galaxy seems rotating slowly, and that thing is really interesting. If the black hole is rotating with extremely high speed, that thing means that the black hole can take the superposition. In that case, the black hole will turn to two black holes, which are in different locations but what are connected with the Einstein-Rose bridge or wormhole. 

The wormhole theory is not ready yet, and the main question about that thing is can the wormhole form between two different black holes, or does that phenomenon require the superposition? In the last case, the wormhole is possible only when the black hole rotates at extremely high speed, which is near the speed of light. And that thing causes the black hole will split into two black holes, which are connected with the wormhole.  

But can we someday benefit the wormhole as the tool for space travel like in some movies? First, we don't know sure is the wormhole even exists. And the second thing is that we don't know how large those wormholes can be anyway. We must take the evidence about the existence by flying the spacecraft inside the black hole by using a speed that is so near the speed of light as possible if we are thinking about the worst case. 

The extremely high speed is necessary to eliminate the effect of the tidal forces. And when the spacecraft is traveling through the event horizon, there is no return. So if there is no wormhole, the craft disappears forever. And if the wormhole is too small the craft cannot either travel through The worst case the wormhole is too hot, and the reason for that could be that both black holes are pulling material in the wormhole, where it impacts, and that thing causes the temperature of billions of kelvin degrees. 

So if we want to see the wormhole, we must understand that this thing itself has a very weak interaction with other parts of the universe. Near the supermassive black holes, we could search for those mysterious energy channels in the universe. 

Wormhole: https://en.wikipedia.org/wiki/Wormhole