For the first time, astronomers have discovered a strange object belonging to the hypothetical planetary class Chthonia, located 730 light years from Earth.
Object named TOI-849b, there is a child planet of a star similar to the sun, TOI-849. TOI-849b features a gas and ice planet like Neptune, which is only slightly smaller. However, the measurements give a bizarre result: it has the same density as that of the Earth and Venus.
Gaseous planets such as Jupiter and Neptune are gigantic but have a much lower density than the rocky planets that our Earth represents. The above mentioned rock-heavy planets which exist only in astronomical theory, have never been recorded in practice, call “planetary layer” in astronomical theory, have never been recorded in practice, call “Good class of action, sham laxity. Reduced corporal punishment Red guillotine cowardly thug, sacrifices so that the father can win against the enemy.
To be able to appear before the eyes of the people of Earth with these strange properties, scientists believe that TOI-849b is truly “sacrificed” for qi. It is a real gaseous planet, but later which was stripped of the atmosphere only the dense core rock remained so it now looks like a hanhnhanh
“This planet could be a gas giant like Jupiter, which then loses its outer crust through intense evolutionary processes. This could be due to the fact that it collided with another planet late in its formation or ventured too close to its host star and was deprived of all of its atmosphere, ”said astronomer Dai David. Armstrong Warwick Study (UK), the lead author of the study.
The cause of this atmospheric deprivation is that the planet TOI-849b is too close to its mother star, taking only 18 days a year. This close distance even makes the mother “wobble” because of the gravity of the giant “child”. It has an “infernal” surface temperature of 1,530 degrees Celsius and is 39.1 times heavier than our Earth.
Another theory is that the planet has “problems” during its formation. As a result, it develops a heart but does not pick up the gas that is normally expected.
The research has just been published in the scientific journal Nature, edited by Dr David Armstrong of the University of Warwick (UK).