It depends on its size. Smaller stars- main-sequence, red giant, planetary nebula, white dwarf, black dwarf Bigger stars- main-squence, red giant, supernova, neutron star.
It depends a lot on the mass of the star. It can be anywhere between a few million years (for the most massive stars), to tens of trillions of years (for red dwarves).
Stars spend about 90% of their fusion lifetimes on the main sequence.
All of the stars in the Milky Way Galaxy are moving... however, we, in our lifetime, will never notice the constellations changing.
Massive stars become neutron stars, or black holes (depending on how much mass is left at the end of a star's lifetime).
It depends on how much gravity that causes stars to form. It depends on how big the star in the galaxies is.
The lifetime of a star depends on the amount of fuel a star has, and the rate at which it fuses it. This can better be described as it's mass and it's luminosity.
The larger a star the shorter the lifetime because, larger stars burn out more quickly.
When a star is at the end of its lifetime its mass increases.
Red dwarves.
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i am level z,because my english is super,i get 54200 stars now!lifetime is 60700stars
When a star is at the end of its lifetime its mass increases.
Stars spend about 90% of their fusion lifetimes on the main sequence.
It depends a lot on the mass of the star. It can be anywhere between a few million years (for the most massive stars), to tens of trillions of years (for red dwarves).
All of the stars in the Milky Way Galaxy are moving... however, we, in our lifetime, will never notice the constellations changing.
they live for a long time as regular sized stars then eventually they turn into red giants and explode then turning into a white dwarf
Lifetimes range from a few million to 100 trillion years