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Something strange is happening somewhere in the far reaches of the solar system, beyond the orbit of Neptune, as some objects turn out differently than anything else. knows.
One common assumption is that an invisible object called "the ninth planet" could alter these orbits, which could explain the gravitational force of small objects gravitating around the Sun behind Neptune.
But physicists from the University of Cambridge and the American University of Beirut have proposed an alternative explanation of the "ninth planet" that makes more sense to them.
Instead of a single large object, orbital oscillations may be the result of the gravitational force of several Kuiper belts, a region of the solar system consisting of objects and frozen rocks and NWT.
When combined in a simplified model of the solar system, the alleged disk forces of small ice objects, with a mass of up to ten times the mass of the Earth, can form the unusual orbital structure represented by certain objects in the confines of the solar system.
Although it is not the first theory, it is the first theory of this type that explains the important characteristics of the extraterrestrial orbits observed, taking into account the eight other planets of the solar system.
"We wanted to see if there might be another, perhaps more logical, reason for the unusual orbits we see in some retrograde neurotic objects," said Antrik Svelian, co-author, PhD student at the Department of Psychology. Applied Mathematics and Theoretical Physics of the University of Cambridge. We thought that instead of assuming a ninth planet and being confused about its unusual shape and orbit, why not just assume the attraction of small objects forming a disc behind the orbit of Neptune and see what this theory offers us. "
Professor Jehad Touma, of the American University of Beirut and Civillian, designed the complete spatial dynamic models of Neptune's backbone, with the joint work of giant outer planets and a huge disk extending beyond the orbit of Neptune.
Calculations revealed that such a model could explain the complex orbits accumulated in space for some neptune objects.
Through this process, scientists were able to determine disk mass ranges, "rotation" (or deviation) and gradual and forced changes of direction.
The scientists concluded that if the ninth planet was removed from the model and replaced by many small objects spread over a large area, the mass attraction between these objects could easily explain the strange orbits observed in some nephonic objects.
Source: Scientific Alert
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