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No, it is not. Stars are kept at very high temperatures by nuclear fusion, which only happens to bodies of high masses. The planet Jupiter is a body that was close to becoming a star, but was too small and did not.
venus
Do I understand the question correct? Here's my rewording: Which kind of planet can grow the oldest? (before it 'dies', for whatever reason, such as sucked into a star or dissolvation I suppose) My guess would be that heavier, more solid planets that are further away from their star will 'survive' for the longest. Planets that are too light or too close may be torn apart by their star, or if they are too gassy they may 'dissolve' due to gravitational forces or nearby planets and star.
The north star is a star, not a planet. It is called Polaris. The planet Venus is called the Evening Star
The temperature of the star when it dies is 350 degrees celsius
No, it is not. Stars are kept at very high temperatures by nuclear fusion, which only happens to bodies of high masses. The planet Jupiter is a body that was close to becoming a star, but was too small and did not.
it dies out (burns out)
She dies
you get to be that person that you trade with
venus
it depends on the mass. If the star is small and it dies then it will turn into a red giant then a white dwarf. But if the star has enough mass and is bigger than any other star then it will collapse and turn into a black hole.
That's because a planet's gravitational effects on a star are stronger - and therefore easier to detect - if the planet is close to the star, and if it is massive.Current methods of detecting planets usually rely on the gravitational interaction between a planet and a star.
Well, one day it will. Our sun is a star and all stars have life spans. When our sun dies, Earth will be destroyed as well. However, all life on the planet will have ended before that happens.
You go to the next level.
The correct term is planetary nebula. Such nebulae form when a low to medium mass star dies.
Do I understand the question correct? Here's my rewording: Which kind of planet can grow the oldest? (before it 'dies', for whatever reason, such as sucked into a star or dissolvation I suppose) My guess would be that heavier, more solid planets that are further away from their star will 'survive' for the longest. Planets that are too light or too close may be torn apart by their star, or if they are too gassy they may 'dissolve' due to gravitational forces or nearby planets and star.
This depends upon how the star dies. Small red dwarfs quietly burning out do not dramatically alter their extended gravitational fields. Large super giant stars which expire through supernova explosions tend to obliterate any close orbiting planets.