The gravitation has no limit.

 The gravitation has no limit. 

Gravitational waves are extremely interesting. Gravitational waves tell that the thing that sends those waves is not stable. The wave in wave movement forms when the energy level in the object that sends waves changes. Same way when the energy level in graviton or the source of gravitational waves changes compared to the environment changes the gravitational center sends gravitational waves. The object sends wave movement when it must release its extra energy. And that happens when an object's energy level rises higher than its environment. 

In the traditional gravity model gravitation will turn precisely weaker in distance square. And that means there is a limit in the range of gravity. That thing is against the law of information persistence. This term means that information cannot vanish. We can think of the gravitational fields as a series of gravitational waves. And the primary gravitational center sends them. The primary gravitational center means dominating gravitational center. 

The reason why there is a virtual limit in the gravitational field in the universe is that. Other gravitational centers send gravitational waves that cover gravitational waves that the primary gravitational center sends turning the dominating gravitational center into another. Like if we travel from the close of the sun to the close of Earth. the Earth is the dominating gravity center. 

This phenomenon is similar to street lights. The streetlights cover the stars' shine below their shine, and we all know that streetlights are weaker than stars. The brightness of streetlights is virtually stronger than stars and that makes them a dominating light source. If we follow that model we can say that the dominating gravitational center is the dominating source of gravitational waves. 

But if gravitational waves travel in space there would be no limit for distance of the effect of the gravitational field. And if there is only one gravitational center in spacetime there is no limit for the gravitational waves that they can start to pull another object to the gravitational center. When we see things like the edge of gravitational fields we see a point, where the dominating gravity center changes. 

When we are reading things like acceleration in weaker gravitational fields we must understand one thing. In theory, the particle will not get more energy than the energy that it gets when it escapes from the gravitational center. The new observations tell us that gravitation is stronger than it should be. 

The reason why Newton and Einstein were not right is simple. They didn't realize that gravitation is electromagnetic wave movement. That means gravitation is like light. The weaker gravitational object can cover larger just like a streetlight covers a star when it's between the star and the observer. 

Another reason is that Einstein's and Newton's theories are suitable for certain scales of entireties. That means all theories are not suitable for all situations. The general theory of Relativity is suitable for gravitational potholes or near-powerful gravitational centers. The Theory of Special Relativity is the tool that observes interactions in weak gravitational interaction. 

The third reason why Newton and Einstein were not right is that they didn't predict that gravitational waves would act like all other wave movements. That means electromagnetism can be used as a model of gravitational waves. The difference is the wavelength of those waves. 

"Researchers have developed a method, MIRVAL, to convert mid-infrared photons into visible photons at room temperature, enabling single-molecule spectroscopy and having wide applications in gas sensing, medical diagnostics, astronomy, and quantum communication". (ScitechDaily.com/Seeing the Invisible: New Method Makes Infrared Light Visible at Room Temperature)

This is why physics requires MOND theory. Modified Newtonian dynamics is the next-generation tool where gravitational waves are noticed. 

The ability to turn IR radiation visible at room temperature can also revolutionize gravitational research. In that case, the system transforms infrared radiation wavelength into visible light's wavelength. And that means it should be possible to transform gravitational waves' wavelength into visible light's wavelength. Making that thing in theory is easy, but in real life, that thing is extremely difficult. 

The fact is that black holes do not create gravitational waves. It transforms other waves or radiation with different wavelengths into gravitational waves. The ability to make IR radiation visible. This means that the system just transforms the wavelength of IR radiation to visible light. There is the possibility that something similar can be done for gravitational waves. 

Theoretically, wavelengths of different radiation types can freely transform to another. That means theoretically we could transform gravitational waves into visible light. But the problem is that we must find the particle that can make this transformation. 

https://scitechdaily.com/seeing-the-invisible-new-method-makes-infrared-light-visible-at-room-temperature/

https://phys.org/news/2023-08-smoking-gun-evidence-gravity-gaia-wide.html

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