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.
white dwarf ---> black dwarf. Only difference is amount of heat.Neutron star (also knows as Pulsar)black holesub-stellar wreckage. Veil Nebula, Planetary nebula,1. Dwarf stars2. Supernovas (Neutron Stars)3. Black holesIt depends on the size and mass
Yes, stars do eventually burn out and die, decreasing the overall number of stars in the universe. However, new stars continue to form through processes like stellar birth in nebulae, so the total number of stars in the universe remains relatively constant on a larger scale.
The Hertzsprung-Russell diagram was a valuable tool for helping astrophysicists work out the stellar life cycle. Arrange all the stars by color (frequency) from left to right, with the bluest on the left and the reddest on the right. Then sort these all by size from top to bottom, with the largest on top. Subrahmanyan Chandrasekhar was an astronomer from India who determined the process of how stars form, shine, age, and die, and was awarded the Nobel Prize for his work on that subject.
Yes, the majority of stars in our galaxy, including our Sun, are found in the main sequence stage of their life cycle. The main sequence is a phase where stars are fusing hydrogen into helium in their cores, which is the most common stage of stellar evolution.
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.
No. Black holes are the remnants left behind when the very largest stars die.
Neutron stars are considered stellar remnants, hence are already dead. What you see is just a hot and dead core. It will remain floating for the duration of the universe unless affected by external forces, slowly cooling.
White Dwarf stars are able to rekindle themselves via novas (so long of course they are a part of a binary system and are close enough to their partners to do such).
white dwarf ---> black dwarf. Only difference is amount of heat.Neutron star (also knows as Pulsar)black holesub-stellar wreckage. Veil Nebula, Planetary nebula,1. Dwarf stars2. Supernovas (Neutron Stars)3. Black holesIt depends on the size and mass
Eliot Stellar died in 1993.
Yes, stars do eventually burn out and die, decreasing the overall number of stars in the universe. However, new stars continue to form through processes like stellar birth in nebulae, so the total number of stars in the universe remains relatively constant on a larger scale.
they trun into a black hole
Stellar constellations do not die.
Constellations are imaginary patterns in the sky formed by stars. As some stars burn out, new stars form.
Some good names for friends being stars are: Stardust, Shooting Stars, Stardom,Shining Stars, My Shining Star,Shining Bright, Shine On Me, Shine me on, Shining me through the clouds, Shining me through the stars, My lucky stars, In the sky are friendly stars, Stars never die, Friends never die, Friends are for life - they are the shining stars. Those are just a few of the many imaginative names you can think of.
Yes. When the most massive stars die, their cores collapse to form black holes.