There are always wormholes in the dimension, what is smaller than a quark, but how stable those hypothetical wormholes could be?
There are always wormholes in the dimension, what is smaller than a quark, but how stable those hypothetical wormholes could be?
1) Quantum-sized wormholes would be everywhere (1)
Theory about the quantum wormholes is formed because, in some ideas about the quantum world, the electromagnetic force, what would be targeted to the area, what is smaller than quark can form the wormhole. But the thing is that the wormholes are still only the hypothetical theory of radical physics.
At this point, we must realize, that the existence of wormholes doesn't mean that we can ever travel through those channels because they are too small for that or the radiation in those channels is too high. So we cannot ever travel through the quantum wormholes or X-ray wormholes, which can be forming between two black holes (2).
There are always wormholes in our universe. Those wormholes are like lightning between the quarks. And sometimes I have thought that could the wormhole or energy channel the thing that makes strong nuclear force thing, what makes quarks together? So, in this case, the wormhole would be a thing, what would be the lightning between quarks, and this means that the super springs and wormholes would be the same thing.
The thing is that those quantum wormholes would be long term things if they are formed between quarks, and those extremely tiny wormholes could be very long, and they can connect black holes from both sides of the universe. But that would mean that the quantum black holes would be the short-living phenomenon.
2) Is the superstring (3) actually wormhole?
Why I sometimes think that superstring is the wormhole? The reason for that is that the strong nuclear force or strong nuclear interaction has one quality, which the other forces would not have. When the quarks are pulled out from together, the strong nuclear force or interaction is turning stronger, and then it suddenly cuts away. That has been caused theory that when the interaction between quarks is cut, there is something, that acts as some kind of spring, and then it would jump through time and space. And could that thing be the quantum wormhole?
This is one of my favorite topics and the thing is the "wormhole" tunnel through time and space. When we are thinking about the form of the wormholes, what are like energy tunnels, there might be wormholes, what is smaller than subatomic particles like quarks and electrons in the very small scale universe, where the distances are smaller than even the nuclei of atoms. In that world, what we can call as "quantum mush" the wormholes can be formed every time between quarks and other particles, like electrons.
3) But could there bigger and stable wormholes in our galaxy, and what is the form of the wormhole?
When we are observing the jets and gamma-ray bursts of the black holes, we might think that those giant jets are the wormholes. The jets of the black holes would be the thing, that causes the formation of the wormholes.
That thing would happen that the particles, that have opposite charges would touch together in the universe. And that could form the electromagnetic bridge between two black holes. But let's go to think the form of that hypothetical phenomenon, what is called "Einstein-Rosen bridge".
3.1) Virtual wormhole
There are two theoretical forms of the wormhole. In the first case, time would slow only in the particle, what is traveling in it. And the travel time between the objects would be the same if we would observe the hypothetical craft from the outer side.
In that case, the energy, what is pumped to the object, what is traveling in the wormhole, that thing would turn it to the object, what energy-level is so high, that the time dilation would happen. This means that the craft that would benefit this kind of wormhole would spend the travel between stars, which are four light-years away from the beginning point four years if we are looking at it outside the craft because it would not cross the speed of light.
But the time would go inside the craft slower, and that means that this kind of thing would take 2 years, if the mass or energy, what is stored in the craft is high enough. In this example, scaping velocity from the craft would be 50% of the speed of the light.
3.2) Real wormholes
In this case, the black holes would accelerate the particle so high-speed, that it would simply fall out from our universe. The thing, what makes scientists believe that the "wormhole" could be possible is that when the black holes would pull the material inside them, their mass should be grown and the size of the event horizon of the black holes like Cygnus X-1 or the supermassive black holes should be expanding.
3.1.1) "White holes" and time-traveling (4).
So in theory that mass is coming out from the thing, what is called "white holes". That means that on the opposite side of the electromagnetic tunnel, what is leaving from a black hole is the "white hole", the mirror-version of the black hole.
There is talked that the wormholes or those tunnels can connect dimensions and make the time travel possible. And one of the most exciting things is that the wormholes could be formed between two black holes, which are oscillating with the same frequency. That means that the "Einstein-Rosen" bridge can be formed between the place and if those black holes, what are oscillating with the same frequency are in the same place, but at a different time, that could make time travel possible.
But the thing is that the theoretical electromagnetic black hole must be closed for a while. And then the next black hole should create in the same place, but that thing is in the purely theoretical level.
3.1.2) Why the material can cross the speed of light only in the black hole?
And why the material could cross the speed of the light? The answer is that the material drops in the middle of the gravity center in the escaping velocity of the particle. This means that the particle would drop behind the event horizon with the speed, what is the same, what the escaping velocity of the black hole is.
So the material would go somewhere when it would be pulled inside the event horizon. When we are thinking about the event horizon as the point, where the particle would reach the speed of light, logically thinking the speed behind the event horizon should increase. And that means that in the singularity of the black hole, inside the event horizon the speed of the particle would increase the speed of the light.
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