Why cannot we find errors in Einstein's theories?

 Why cannot we find errors in Einstein's theories?

Einstein must be wrong, and we know it. But nobody found errors in his theories. The theory of Relativity is two theories: Theory of Special Relativity. And the Theory of General Relativity. Those theories match certain types of gravitational fields. The theory of Special Relativity matches in the "straight universe" where gravitation is not strong. The theory of General Relativity matches in a strong gravitational field like near the sun. And that theory made it possible to calculate the planet Mercury's trajectory. 

But then we see one very interesting thing. The Theory of Relativity is tested only in weak gravitational fields. But what type of gravitational field is strong enough? That it can make those theories fall? Do they fall inside the event horizon of black holes?  

"As new and powerful telescopes gather new data about the universe, they reveal the limits of older theories. Credit: Shutterstock" (Phys.org/Why Einstein must be wrong: In search of the theory of gravity)

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The uncertainty  principle of Werner Heisenberg says that it's impossible to measure precisely certain quantities. The place and momentum are both impossible to know at the same time. When measurement accuracy in some quantity increases, that means measurement error with some other quantity decreases. 

When the object's mass increases. That means gravitation turns more and more dominating. So in a black hole, the gravitation supplants or covers all other fundamental interactions.

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

When we are looking at gravitation. We are losing accuracy from the other three fundamental interactions. We cannot strip three fundamental interactions off from their entirety when we are measuring the gravitational effect between middle-class massive objects like planets and their stars. 

So that means if we put focus into some values or some quantity other quantities are less attented. The uncertainty principle in fundamental interactions is that they all interact with particles or particle groups in their entirety. All fundamental interactions affect particles and particle groups. We cannot divorce gravity from the other three fundamental interactions. We cannot remove all other forces from the sun for example. Those weaker forces exist. And in short distances, they are stronger than gravitation. 

Same way force cannot affect a system without affecting all its particles. So fundamental forces also affect objects as entireties. But in long distances, gravitation is dominating. So if we keep focus on gravitation, we lose focus on other recessive interactions. 

And when we are looking at gravity, we forget that there are also three other fundamental interactions. The effect of those interactions is limited. But it exists. If as an example electromagnetic interaction continues for billions of years at the same point on the planet that interaction affects to planet. Even if long-distance interaction between other fundamental forces than gravity is not very strong that interaction exists. 

https://phys.org/news/2023-09-einstein-wrong-theory-gravity.html

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

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

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