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Warp-bubble and the dream of the faster-than-light travel
Black holes and the Theory of General Relativity
Crossing the speed of light is possible at least in one place: Black Holes. When the particle will reach the event horizon, its speed will increase to the speed of light. But because the falling particle is the same as the escaping velocity. So at the point of the event horizon, the escaping velocity is the same as the speed of light. And it will increase until the center of the black hole.
When we are thinking about the black hole, we might think that in the singularity, the ball-shaped space, where the escaping velocity is higher than the speed of light the time travels backward. But the remarkable thing is that there is an object in the black hole, where the entire material is pressed in the size, that is smaller than an atom.
And in the middle of that thing is the point, where is no gravity at all. The idea of this is that even in the strongest possible gravity fields, gravity would act like in the regular ball-shaped object. But in a black hole, the material is in a form that is smaller than even the atom. And in the middle of that form could be a similar point with all other balls. The zero-gravity point.
The quantum field would make it impossible to cross the speed of light. The fact is that "vacuum space" is the theoretical thing. The Universe is full of energy and particles like electrons, protons, and dark matter. So the quantum fields are closing the entirety inside them. Those things are making it impossible to cross the speed of light in normal situations.
What we should do when we want to travel with the speed, what is higher than the speed of light? The answer is simple, we must just remove the quantum field, which will give the cosmic speed limit. So removing the quantum fields around the craft would remove the resistance around it.
The bubble of nothingness would make it possible that the craft can travel faster than the speed of light. The idea of this kind of bubble is simple, the electromagnetic field would just push all other quantum fields away from the craft, and that would remove the resistance of the quantum field from around the object.
And that thing would make the craft crossing the cosmic speed limit. Another version is to increase the mass of the craft when it would travel near the speed of light. So the craft itself would turn to travel with the speed, which would be higher than the speed of light because the resistance of the quantum fields is removed.
https://www.publish0x.com/grabbag/actually-you-can-travel-faster-than-the-speed-of-light-xjjgwvw
https://en.wikipedia.org/wiki/Warp_drive
Image: https://www.extremetech.com/extreme/136408-nasa-working-on-faster-than-light-travel-says-warp-drives-are-plausible
So did Einstein make mistake?
The weakness in standard models of physics and quantum mechanics is that they are made for standard situations. The standard models are not made to handle things like a black hole, extremely high speed, or the energy levels, what is releasing from the black hole collisions. They are made for handling more regular and theoretical conditions. The fact is that those "standard" conditions are purely theoretical, and then another fact is that the standard models are not suitable for any special event or environment.
The problem with things like the Theory of General Relativity is that they need the speed of light. And another thing is Albert Einstein was just a person. A human being, who must use the data, what he could get. And in the time of Albert Einstein was not quantum computers, which can make very complex models by using accuracy, which is higher than any human can use.
And also quantum computers can make mistakes. The thing is that the power of those computers depends on the data, what they are handling. And that thing makes computers interesting. If somebody or something will make the decision, that thing will depend on the data, what is given to the system.
We can say that Theory of Special Relativity is made in the time of classic mechanics. And Theory of General Relativity would be the beginning of the time-space and quantum mechanics.
https://physicsworld.com/a/spacecraft-in-a-warp-bubble-could-travel-faster-than-light-claims-physicist/
Image: https://www.extremetech.com/extreme/136408-nasa-working-on-faster-than-light-travel-says-warp-drives-are-plausible
The Theory of General Relativity is one of the most remarkable formulas in the world.
E=mc^2
E=Energy
m=Mass
c=The speed of the light
The thing about this formula is that Albert Einstein created it in 1916, during the First World War. The formula is easier to handle and understand than the formula of the Theory of Special Relativity, which Einstein introduced in 1905. The Theory of General Relativity was published in the year 1915, which was the worst possible time to publish scientific theories.
When we are thinking about those two theories we can say that the Theory of Special Relativity was made in the time of classic mechanics. And the theory of General Relativity was the gate to the time-space and quantum mechanics. The reason why Albert Einstein made the Theory of General Relativity was the differences between the metered values of the trajectory of planet Mercury and the calculations about that thing.
So Einstein created the new formula, which is the most well-known in the world. The differences between true and theoretical trajectories of the planet Mercury made the road to the idea of curving the universe. And because gravity affects light, that means that when the escaping velocity is crossing the speed of light, that means the speed of the particle would cross that level too. drop to
https://en.wikipedia.org/wiki/General_relativity
https://en.wikipedia.org/wiki/Special_relativity
Image: https://commons.wikimedia.org/wiki/File:Emc2.svg
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