Yes, a star can turn into a planet, but this transformation only happens for a very particular type of star known as a brown dwarf. Some scientists do not consider brown dwarfs to be true stars because they do not have enough mass to ignite the nuclear fusion of ordinary hydrogen.
Yes, it is possible for stars to turn into planets. But this happens for only a specific category of stars- called as brown dwarfs.
Explanation:
Brown dwarfs are often called failed stars. They are objects that are too compact in size to be stars, but too huge to be planets. They have mixed features of both stars and planets. Their sizes range from twice the mass to 90 times the mass of Jupiter. Like a regular star, they are generally found at the center of their solar system and have planets orbiting around them. Unfortunately, they do not have enough gravitational force to support the nuclear fusion of hydrogen.
Even though a brown dwarf cannot support the fusion of hydrogen, it can support the nuclear fusion of heavy hydrogen (deuterium).
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Verified answer
Answer:
Yes, a star can turn into a planet, but this transformation only happens for a very particular type of star known as a brown dwarf. Some scientists do not consider brown dwarfs to be true stars because they do not have enough mass to ignite the nuclear fusion of ordinary hydrogen.
Answer:
Yes, it is possible for stars to turn into planets. But this happens for only a specific category of stars- called as brown dwarfs.
Explanation:
Brown dwarfs are often called failed stars. They are objects that are too compact in size to be stars, but too huge to be planets. They have mixed features of both stars and planets. Their sizes range from twice the mass to 90 times the mass of Jupiter. Like a regular star, they are generally found at the center of their solar system and have planets orbiting around them. Unfortunately, they do not have enough gravitational force to support the nuclear fusion of hydrogen.
Even though a brown dwarf cannot support the fusion of hydrogen, it can support the nuclear fusion of heavy hydrogen (deuterium).