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Could a theoretical white hole be invisible to the human eye?

 

The wormhole or Einstein-Rose bridge is the thing that connects two points in spacetime in the universe. The black hole itself is the wormhole through spacetime. When the escaping velocity crosses the speed of light, time starts to travel backward. Behind the event horizon, all particles travel at the same speed.  Another wormhole is the energy channel that connects two places in space. 

The idea is that energy is locked in the particle when it travels through a gravitational tornado. When a particle travels in that channel the energy wave behind it pushes that thing forward. The energy shadow at the front of the particle or object pulls the object forward. There is no scattering effect in the wormhole. In a wormhole, all particles travel at the same speed.

In that model energy and particles come out from the wormhole and cause an effect called a white hole. The white hole has not yet been detected. But Einstein's Theory of General Relativity is the thing, that supports this model. And all other Einstein's theories like medium-mass black holes seem right the white hole should exist. 


Could a theoretical white hole send radiation only in X and gamma-ray form? 


But why cannot we see that white hole? In some models energy level of the particles that come out from the wormhole is so high, that the wormhole sends its radiation in the form of gamma- or X-rays. That means the white hole would be invisible to the human eye, but visible in X- or gamma-ray frequencies. 

When we speak about time, we normally say that it's energy level. Actually, time is the difference between energy levels. And if the object's energy level is much higher than its environment, energy flows out from it very fast. That energy flow causes that sooner or later particles in an object turn into wave movement or they vaporize. Another name for quantum vaporization is aging. When a particle sends wave movement it turns old and loses its mass. 

When the universe expands, particles send wave movement, because the quantum fields around them turn weaker. That energy flow ends when the universe reaches energy stability. And when a particle's energy level turns the same as its environment it loses its existence as a particle. So particle's energy level must always be higher than its environment. 


Above: cosmic gamma-ray background. 

What if a white hole releases its energy in  X- or gamma-ray frequencies? The idea is that a white hole is so high-energy object that releases only X- and gamma-rays. The gamma- and X- rays are radiation, that form in high-energy reactions. And that can explain why we don't see those objects. 

The faster energy flow out of objects makes some stars seem older than they are. If the star travels outside galaxies it turns old faster than the star that is inside galaxy. The reason for that is that energy travels out from stars faster than stars in the galaxy. The space around stars outside the galaxy has a lower energy level, than space in the galaxy. 

That means energy from a star travels faster into that very cold or low-energy universe than into a higher-energy universe. And that can explain, why some stars seem to be older than even the universe. If a star travels through cosmic voids that can make them aging or release energy and material faster than other stars, that don't travel through cosmic voids. 

In some models, the star named Spica has something to do with a hypothetical white hole. The idea is that energy is locked in the particle that travels in the wormhole. So when the particle, comes out from the white hole. 

It releases its energy at a very high speed. When the difference between the energy level in a particle and its environment is very high, that means energy travels out from the particle faster than if the difference between energy levels is low. Because a wormhole locks energy in the particle that means the difference between energy levels in the particle and its environment are higher than in normal cases. 

So the particle sends extremely fast and strong energy impulses. It's possible that this shockwave rips particles immediately into the wave movement. This is one thing that can happen in the wormhole. 



https://www.freeastroscience.com/2021/05/what-is-white-hole.html


https://www.space.com/22466-nasa-fermi-telescope-photos-gamma-rays.html


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


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


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


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


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