The MOND (Modified Newtonian Dynamics)and Beoynd: Can Newton and Einstein be at the same time right and wrong?

The MOND (Modified Newtonian Dynamics)and Beoynd: Can Newton and Einstein be at the same time right and wrong?

We cheer for new physics and new ideas about natural interactions. But when we think about General Relativity and Newton's principle that gravitation. Always interacts with particles and wave movement in the same way, there is an area at extremely low acceleration where gravitation doesn't interact with all particles in the same way. 

That means there is an exception in both reality and theory. There is a possibility that the exception is visible only in low-acceleration areas. So there is a window in gravitational interaction at low acceleration where Einstein and Newton fall.

Did Einstein and Newton's models fall near binary star systems because they just forgot that there are other gravitational interactions than just gravitation? There are no pure gravitational interactions in the universe. Also, other fundamental interactions, like weak nuclear forces and electromagnetism, interact with particles.

In some models, the gravitational centers pull quantum strings just to the gravitational center. But some of those quantum strings and quantum fields travel past the gravitational center. That thing forms a network of quantum electrostatic arcs that push particles away. When acceleration is low. That particle's impact energy is also low. And that means those particles cannot travel through that quantum network.

That anomaly was seen near binary star systems. So could the situation where two gravitational centers send gravitational waves cause a situation where those gravitational waves are deleting each other?

But what could happen to that anomaly at low acceleration? Gravitational centers pull quantum strings to the center of gravitation. The anomaly in gravitational interaction was seen near binary star systems. We can find answers to that anomaly in many things. In binary star systems, there are two gravitational centers.

That means those gravitational centers are sending gravitational waves that impact each other. In that model, gravitational interaction deletes some of those gravitational waves. And that causes interesting ideas about situations where impacting gravity waves are destroying each other. That means gravitational waves cannot reach objects with the same power as those near single gravity centers.

Or is the question about the situation where gravitational interaction is not dominating enough?

In regular binary star systems, there is also strong electromagnetic interaction. The thing is that electromagnetic interaction can affect particles differently than gravitation near black holes. The idea is that pure gravitational interaction requires that gravitation become very dominant. 

Or that requires a situation where there are no other interactions other than gravitational interactions. There are always other interactions in the universe. Even near black holes, there is an electromagnetic effect that pushes particles away from the black hole.

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

https://iopscience.iop.org/article/10.3847/1538-4357/ace101/meta