How some planet can be warmer than the star, what it orbits?
Kimmo Huosionmaa
The exoplanet Kelt 9b is the hottest planet in the universe. Along with Kepler 70 b those exoplanets are so-called Blue Sub dwarfs, what means that they are extremely hot planets. But why they are so hot. Kepler 70 b is the planet or gas giant, what orbits the former supernova or nova because if the star was about the size of our sun, would it cause that situation, that the last eruption of those stars is more peaceful than in supernovas.
But when Kepler 70 exploded it heated the atmosphere of the gas giant Kepler 70 b, what started to rise up, and then the small bits of dust and ice in the atmosphere started to move like in some turbulence or whirls. The whirls were not probably very big size, but the wind speed in those whirls were extremely high and friction between those bites started to raise the temperature, and then the atmosphere started to leak out space.
The phenomenon is raising the temperature very high level. In some carbon, planets have also higher temperature than the stars what they orbit, and in those cases, the friction with the carbon bites, with the friction between the atmosphere and surface of the planet would cause the thing, that the temperature is raising the extremely high level.
Those extreme hot planets have caused the thoughts, that on the moons of that kind of planets might be some kind of life forms. If the moon of Kepler 70 b or in some similar case would be in the shadow of the planet when the nova has erupted, could that moon save its atmosphere, and maybe there would be forming the primitive lifeforms.
But if that Nova would be orbiting the planet, where would be intelligent lifeforms they could move to that moon, and the technology, what they need would not very high. In the case, that the lifeforms of that moon would be endemic, would that story end very soon, because that kind of planets would fade away to space very soon, and the creation of the intelligent life form would not be possible. But the hypothetical intelligent life form could evacuate to that hypothetical moon by using normal chemical rockets, and then they might start to create ways to travel to the stars because that moon couldn't maintain life very long time.
Kimmo Huosionmaa
The exoplanet Kelt 9b is the hottest planet in the universe. Along with Kepler 70 b those exoplanets are so-called Blue Sub dwarfs, what means that they are extremely hot planets. But why they are so hot. Kepler 70 b is the planet or gas giant, what orbits the former supernova or nova because if the star was about the size of our sun, would it cause that situation, that the last eruption of those stars is more peaceful than in supernovas.
But when Kepler 70 exploded it heated the atmosphere of the gas giant Kepler 70 b, what started to rise up, and then the small bits of dust and ice in the atmosphere started to move like in some turbulence or whirls. The whirls were not probably very big size, but the wind speed in those whirls were extremely high and friction between those bites started to raise the temperature, and then the atmosphere started to leak out space.
The phenomenon is raising the temperature very high level. In some carbon, planets have also higher temperature than the stars what they orbit, and in those cases, the friction with the carbon bites, with the friction between the atmosphere and surface of the planet would cause the thing, that the temperature is raising the extremely high level.
Those extreme hot planets have caused the thoughts, that on the moons of that kind of planets might be some kind of life forms. If the moon of Kepler 70 b or in some similar case would be in the shadow of the planet when the nova has erupted, could that moon save its atmosphere, and maybe there would be forming the primitive lifeforms.
But if that Nova would be orbiting the planet, where would be intelligent lifeforms they could move to that moon, and the technology, what they need would not very high. In the case, that the lifeforms of that moon would be endemic, would that story end very soon, because that kind of planets would fade away to space very soon, and the creation of the intelligent life form would not be possible. But the hypothetical intelligent life form could evacuate to that hypothetical moon by using normal chemical rockets, and then they might start to create ways to travel to the stars because that moon couldn't maintain life very long time.
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