
A physicist from Russia, who has found ways to assess the features of hypothetical structures such as Warmhol, retroses from what he knows about our light and space.
Planckhole and Warmhol's theories, like the two sides of the coin, question our physical experience. So that they can perform better by examining the objects that are dominant in the face.

Roman Connelly, a member of the People's Principal University of Russia, has discovered a method of explaining the features of uncontrolled structures with ripple geometry of space. But finding it is not easy.
"We can show here how we can reconstruct the high vibration of the wormhole, not the unmistakable mod, and how we can replicate the shape of a sponge-passable wormhole," says Roman.
Some of his research is not available for early wormhole enthusiasts. Here's a brief summary of what his research is.
According to Einstein's General Relativity and Maxwell's Electro Magnetic Radiation Equations, information about the speed of light, time and space functions can be determined.
Twenty years ago, Einstein, together with another physicist Nathan Rossen, said that information passing through Blakehole would be released somewhere in space or through a whiteboard in space. But we do not know how it will work after a certain point. This means that when you go inside the black hole does not know how the mass and the like will be.

Roman discovered that the shape of the plaque and whiteholes can be seen in the space between the waves. So, when you do not have a high rate of rotation, you can learn about them when rotating in the plaque.
For this reason, he can use quantum mechanics to discover that the electromagnetic radiation surrounding the plasma is expanding. Based on those results, you can learn about the shape of the plaque
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