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Most stars end up as white dwarfs. A few become neutron stars. Even fewer become black holes.
The most massive stars will end up as black holes. Those are the stars that have more than approximately 3 solar masses at the end of their life - i.e., AFTER the supernova explosion.
The most massive stars will die as black holes.
White dwarf. High mass stars become neutron stars or black holes.
No, all a black dwarf is is a white dwarf that has cooled, it's mostly carbon and oxygen and nitrogen. A black hole forms when the gravity of a collapsing star is able to overcome all opposing forces.
No, but some stars can end their lives by becoming a black hole.
The most massive stars become black holes.
Most stars end up as white dwarfs. A few become neutron stars. Even fewer become black holes.
Very large ones.
The most massive stars will end up as black holes. Those are the stars that have more than approximately 3 solar masses at the end of their life - i.e., AFTER the supernova explosion.
The most massive stars will die as black holes.
Smaller stars do collapse at the end of their lives. Bigger stars die in titanic supernova explosions. The cores of the stars are crushed into neutron stars or black holes, while most of the mass of the star is blown completely away from the star into a nebula. Billions of years later, some of that nebula material may form planets around new star systems, just as has happened to the Earth.
They are not. A supernova is an explosion of a star. Blue stars usually end their lives in such explosions.
White dwarf. High mass stars become neutron stars or black holes.
Heavy stars go supernova at the end of their lives.
Stars with a low to medium mass will become white dwarfs. Massive stars will become neutron stars or black holes.
No, all a black dwarf is is a white dwarf that has cooled, it's mostly carbon and oxygen and nitrogen. A black hole forms when the gravity of a collapsing star is able to overcome all opposing forces.