Einstein's theories are passing the ultimate tests

 

Albert Einstein

(1879-1955)

Einstein's theories are passing the ultimate tests

The point where light disappears in the black hole is called the event horizon. This is the only point in the universe where the object pulls photons inside it. As a phenomenon, the event horizon is not unique. Every single black hole has that thing. The size of the black hole is metered by using the event horizon or the area where light cannot escape as the definition of the black hole. There are many black holes in the universe. So that means that there are many event horizons in our dimension. 

Which one would come to the first photon or ocean-going ship if they would face the event horizon of the black hole at the same time? The thing that makes this test a little bit difficult is that black hole pulls light and photons inside it, but there is one thing that people are not always mentioning. The thing is that the photon must touch the event horizon, the point, where the escaping velocity is reaching the speed of light, or otherwise photons are flying away. 

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Could there be a mistake in Einstein's theories? Those mistakes are not found yet. 

The thing in Einstein's theories of the Special Relativity and Theory of Common Relativity is those theories are made with ultimate accuracy, which means that they are passing the most accurate tests, what the scientists have created. If we are thinking about Einstein's Theory of General Relativity and the possibility to find the mistake about that theory, we must return to the man named David Hilbert. 

When Hilbert calculated the triangles and how those lines would behave on the ball layers, he found errors in the axioms of the calculations. So there was something wrong with the Euclidean geometry because there were differences between the suspected values and the values that Hilbert got when he made a very long series of the calculations. 

The thing was that Hilbert used virtual triangles what was drawn on the virtual ball layer and the differences of the series of calculations and suspected values meant that Hilbert found something that nobody believed. The idea of the Fifth dimension is created by using those series of calculations. 

So could there be an error in Einstein's theory? Even there is an error in Euclidean geometry, we still use those calculations in everyday life, and that means that Hilbert's observation would mean anything in everyday life. But it's very important in theoretical calculations of the geometry. 

https://www.iflscience.com/space/most-intense-gamma-ray-detection-from-space-used-to-test-einstein-s-relativity/

Image: https://www.einstein.caltech.edu/

Theory of General Relativity

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E=mc² 

E= Energy

m= mass 

c= the speed of the light

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Where Einstein got the value of the speed of the light?

When we are trying to find the error in this calculation, we can find the point, where it could be. That error is the value of the c (the speed of the light). So did Einstein use the value of what was metered Albert Abraham Michelson what is 299 792 458 m / s or theoretical value 300 000 000 m /s? This is the thing, that has a very small mean in everything, so that means that the Theory of Common Relativity is not broken if Einstein used theoretical value. So that theory passes the most effective calculators and observation tools, that ever created in history. 

But there is one thing that is always causing discussions and that thing is connected to the black hole. When a black hole pulls the photons inside it in the point, what is called an event horizon, the point where the escaping velocity reaches the speed of light the thing is that the object is dropping through the event horizon with the escaping velocity. 

So the idea is the same as the famous test. Where the plume is dropped at the same time with an iron ball. In this test, the photon would drop through the event horizon at the same time, with the other object. 

But there is one question, does the photon come first, if it would drop through the event horizon with some other thing. In this test, the photon would release at the same time with some other object. And the idea is mater witch one would cross the event horizon first. 

So the thing that makes that kind of test a little bit difficult to make is that the photon can drop in the black hole only if it touches the event horizon. And that means that the release system that releases the photon and iron ball must touch the event horizon. But today we can say that E=mc² stands the most accurate and hardest tests what the researchers can create. 

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