No. Stars become white dwarfs after dying.
black holes white dwarfs or nuetron stars
There are three types of stellar remnants. Low to medium mass stars will become white dwarfs. High mass stars will become neutron stars. Very high mass stars will become black holes.
A white dwarf. Actually, it depends on the size of the star in question. Really big stars go out with a bang and become neutrons or black holes (the really giant ones). Less big ones take longer to die out and eventually become red dwarfs or white dwarfs.
A nebula does not directly turn into a white dwarf. A nebula will collapse to form stars. Low to medium mass stars become white dwarfs after they die. Some are the result of a supernova and do not collapse, they merely dissipate over time. The Crab Nebula is the most prominent example of this.
yes a galaxy can dieone way a galaxy can die if another galaxy collides with a smaller galaxy even though the result is a larger galaxy the smaller galaxy died because it no longer exzitesa galaxy is a huge cluster of stars. even though in a Large Galaxy such as a spiral with enough gas to form new stars, when a star dies out, the energy collides with the gas to form new stars.But in a galaxy that is small and dim such as eliptical galaxies with dim low solar mass stars it would not have enough energy to form a new stars because the gas is far apart and not enough to form new stars. so if all of the stars die out there would be no new stars get formed all that would be left are dense cores called white dwarfs,black holes and neutron stars and some dust. there would almost be no light generated by the galaxy.but not all galaxies die out(FOUND OUT FROM AN ASTROMNER)
black holes white dwarfs or nuetron stars
Stars that become white dwarfs die but become black holes . Neutron stars are born from a Super Nova that stored its energy and became a neutron star.
No. Blue stars will generally leave behind neutron stars or black holes.
Red dwarf stars have such long lifetimes that none of them ever have yet. Presumably, they will eventually go through the white dwarf phase before cooling entirely and becoming "black dwarfs".
There are three types of stellar remnants. Low to medium mass stars will become white dwarfs. High mass stars will become neutron stars. Very high mass stars will become black holes.
Stars can die in many ways. After a long life, there are two distinct paths to a star's death. They can either start the path to death after becoming a planetary nebula, or a red supergiant. Following the red giant phase some stars become white dwarfs and then black dwarfs. If the star is a red supergiant, it supernovas, then it will either become a black hole, or a neutron star. Those are the only known and recorded ways that stars can "die". However, the science behind the death is much more complicated and intriguing. Source: Wikipedia
A white dwarf. Actually, it depends on the size of the star in question. Really big stars go out with a bang and become neutrons or black holes (the really giant ones). Less big ones take longer to die out and eventually become red dwarfs or white dwarfs.
Percentage wise. Most stars do not explode. Only about 1 in 3 million will explode as a supernova. The rest, like our Sun will just die quietly and become white dwarfs.
they turn to white dwarfs then red giants and then they explode
A nebula does not directly turn into a white dwarf. A nebula will collapse to form stars. Low to medium mass stars become white dwarfs after they die. Some are the result of a supernova and do not collapse, they merely dissipate over time. The Crab Nebula is the most prominent example of this.
There are all kinds of stars in our Milky Way galaxy. Our sun is a G2V type star. There are red giants, blue giants, white dwarfs, red dwarfs, brown dwarfs, and probably even black dwarfs (burned out suns), neutron stars, and pulsars. There are also herbig-haro objects, a peculiar type of star that emits collimated bipolar jets of radiation.
Exactly what happens depends on the mass of the star. Low mass stars first expand into giants, then shrink to white dwarfs. Stars with a little more mass than the Sun end up as neutron stars; stars with considerably more mass with the sun end up as black holes.