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The new theory challenges Einstein.


"Researchers propose a modification to Einstein’s theory of general relativity, suggesting a “cosmic glitch” that makes gravity slightly weaker across vast cosmic distances. This adjustment could help explain some unaccounted phenomena in the universe. Credit: SciTechDaily.com" (ScitechDaily, Einstein Challenged: Exploring the “Cosmic Glitch” in Gravity)


The new theory challenges Einstein.


In the new model, gravity is radiation that turns weaker when it travels through the universe. Researchers took that model from the Hall effect, where weaker energy fields pull energy away from the main energy field. And in this version, gravity is like all other radiation and wave movement. 

The thing with the new gravitational model is that if gravitational waves turn straight, the gravitation loses its power. That means the gravitational waves can stretch so much that they turn straight, and it doesn't cause changes in the gravitational energy field. The wavelength is the thing that determines if the force is the strong, or weak nuclear force, electromagnetism, and gravity. 


So when gravity waves distances from their source turn longer those waves should act like all other wave movements. 


The gravitational field or gravitational wave must not turn straight so that it loses its power. In some other models. Is possible that the gravitational wave loses its density. The gravitational center is the place where gravitational waves form. And when it sends gravitational waves those waves travel like electromagnetic radiation. 

When the distance to that object continues, gravitational waves disturb. And finally cut the interaction between gravitational waves that come out from the gravity center. The disturbance is the thing that limits the gravitational effect's distance. 

We can think of gravitational waves that come from the gravity center we can say that they act like waves in the water. When the distance from the gravitational center to the gravitational wave turns longer, the gravity wave loses its density or energy. And that turns those gravity waves weaker. 

It's possible that if gravity fields start to form whirls the outside gravity energy finally breaks that structure. In that case, the weaker gravity field in those gravity whirls causes a situation that the gravity field will impact, and then that thing forms the "gravitational vacuum bomb" that causes that impacting gravitational fields to form the gravitational wave that can interact oppositely than other gravitational waves. 


Gravitation is one energy form. It's wave movement like all other three fundamental interactions. 


When we think about wave movement when the wave impacts a particle, it pumps energy into it. When the wave or its energy level turns low that thing lets the particle space to send the extra energy as waves as wave movement. The thing is those photons that are left from particles when wave movement's energy level turns lower make material visible. So when the wave movement turns straight it can lose its ability to transpose energy into particles.


https://scitechdaily.com/einstein-challenged-exploring-the-cosmic-glitch-in-gravity/


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