When we want to calculate the position of two objects. Those are orbiting each other that thing is really easy. But when we are involving the third object in this problem that thing makes everything so hard that even the best computers cannot calculate that thing. The fact is that the position of the three objects in the orbiting system should be easy to calculate. But the results of those calculations have no match with reality.
The thing is that the gravitation waves are proven that gravitation is some kind of wave movement like light. That thing can help us to model the situation. That makes those calculations very hard. If we are thinking that between the objects is the channel where the power of quantum fields is lower than around the channel. And the pressure of outcoming radiation will push the particles together that thing can explain why the third object makes the system very hard to calculate.
When the channel with lower energy quantum fields is forming between two objects. That makes them positioned in the same system. If we are using the regular terms. We can say that the pressure between those objects is lower than around them.
And the third object is pulling the third quantum field through that channel. That can cause the pushing effect of unpredictable things in the quantum fields. Between those three objects. In the diagram, there is the model of how the third object is affecting the gravitational channel or quantum channel between the objects.
It pulls the gravitational waves or gravitational curves through that channel. And when the third part of the system is orbiting the entirety. When the position of the third object changes the form and direction of the energy curve are also changed. That means the entirety of the three object systems is incredibly hard to calculate.
https://www.wired.com/2016/06/way-solve-three-body-problem/
Researchers use binary star systems or triple stars to confirm the calculations.
Above this text is an artist's impression of the binary-star system GG-Tauri A (https://www.universetoday.com/Double Disc Found Feeding Each Other In Binary Star System)
Four effects are affecting that system.
1) Pure gravitational effect
2)Centripetal force
3)Electromagnetic interaction
4) Effect of other members of the system
When we are thinking about the objects of a three-member system the third part will not pull only gravitational fields through two main objects. It pulls also ions and other particles to those objects. Even if the effect of those particles is minimal. That effect can last even millions or billions of years. In the real universe, the electromagnetic effects are not stable. Many high-energy reactions happen suddenly. And that thing causes unpredicted changes in the radiation of the stars.
When we are looking at the binary-star systems there are also the ion bridges between those stars. The third part is also affecting that bridge. And the electromagnetic radiation will also be affecting that bridge. The gas bridge between the stars is high energetic plasma. That plasma is acting as an antenna and all electromagnetic radiation effects that plasma. When the temperature of the plasma is increasing. That thing that causes the heat of plasma is also pushing those stars away as well as gravitation is pulling them together.
Image) https://www.universetoday.com/115494/double-disc-found-feeding-each-other-in-binary-star-system/
https://thoughtsaboutsuperpositions.blogspot.com/
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