Things like the Muon G-2 experiment have shown how new things can be found in an unexpected place. And the question is have researchers found the new natural law or seen the shadow of particle, what is yet unknown. The thing is that this kind of idea is the most exciting thing in the field of science. But one thing that is broken is the stability of science. When researchers are making their theories, the thing is that they must have observations for making the formulas for their theories.
Theories of Special and General Relativity are the best examples of the case, where the ready and well-introduced theory needs the repair kit. The Special Relativity was not accurate enough to model the curving spacetime near massive objects. And Albert Einstein introduced the Theory of General Relativity for modeling the interaction near massive objects. And those theories are the key element in the models that are handling "curving spacetime". Today we know that every single object in the universe is curving the spacetime around it.
Our relationship with the universe has been changed. The opinion about the universe has been changed from the "Static universe" of Sir Isaac Newton to the interacting and oscillating universe, where every single particle and forces like wave movement are interacting with each other. Spacetime means (mainly) the gravitational interaction, which affects each particle in the universe.
Gravity affects time and slows it. This thing is called time dilation. But the fact is that the speed is also slowing time. So time is a very complex thing. Whenever the particle is moving, that movement causes that the time is slowing. When electromagnetic radiation hits the target it affects the time in it. But how the gravity makes that thing? It increases the energy of the particle. We know that energy is the thing, that slows time in the object. And gravity is one of the forms of energy, but that's all. Gravity is one of the most dominant effects in the universe, and that thing interacts with dark matter.
But it's the weakest of the forces. And that thing makes gravity so special. Gravity is force, that interacts in the long-distance but it can also cause interaction between dark and visible material. The question is, why the most dominant effect in the universe is so weak? Some people are thinking that gravity is the key to higher theories of the form of the universe. So if the form of gravity can model, that thing makes it possible that the GUT (Grand Unified Theory) theory can be modeled.
Then we must realize, that also things like neutron stars can interact through long distances by the electron rays. And that means electromagnetism can also have the ability for long-distance interactions. But electromagnetism cannot interact between visible and dark matter. So gravity is a universal force. But also other forces in the universe are meaning something. In the great world of interactions, gravity is "only one of the interactions".
https://en.wikipedia.org/wiki/Grand_Unified_Theory
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