The model of the black hole is that thing makes time travel backward inside the event horizon. But we can think of the black hole as a tube that travels through the universe. Time is dilated on the event horizon. And that means the black hole itself looks frozen. The event horizon is the point where time stops.
And that makes the black hole very interesting. When a black hole touches the hypersurface of the present that hypersurface of the present is like some kind of elevator, that travels around the black hole. So the black hole is like the tube that connects two points in the universe and spacetime. The black hole might look like frozen, but it has its limits.
The existence of the black hole is not infinite. And that means we can think that a black hole as the tube that has begun and ended. The thing is that, if we are attempting to slip into the black hole from the wrong point, we are facing a big problem. The thing is similar we try to go in the tube through its wall. The black hole connects the future and the past. And that thing makes it the most important object in the universe.
Black holes are forming in the most high-energy reactions in the universe. That energy level forms the gravitational center where all quarks and other subatomic particles are forming the entirety called a singularity. Normally that type of material is described as the entirety of material and time.
The supernova or kilonova pushes those particles with so high force, that it reaches the maximum energy level of the universe. In some other models, the super- or kilonova forms a similar effect to the vacuum bomb. And then the material and its electromagnetic fields are dropped inside the vacuum. And that thing causes extremely high power energy production.
When we are looking at the image (that is the Window's background image) we can think that the hypersurface of the present is like this. Normally, some wrinkles of the hypersurface of the present are not in order. Those wrinkles are causing friction. And the black holes are pulling them into a straight line. Also, black holes are pulling the hypersurface present inside them. The rag is acting like a Higgs field around the gravitational center. If that gravitational center is strong enough, it forms a clean spiral or whirls around it. The gravitational center must have enough high power that it can form a static or stable structure.
Those wrinkles in the hypersurface of the present are making it hard to reach the speed of light. If those wrinkles are straight, it's hard to make particles interact with those fields. Those particles float like corks on water. And that thing makes it hard to detect their existence.
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