sup.
As far as we know, the sun will never become a neutron star. it will eventually become a Red Giant and then it will eventually become a white dwarf
An object of one solar mass cannot become a neutron star.
Low and medium sized stars will end up as white dwarfs.
Eventually - and I mean eventually. If a neutron star was formed at the beginning of the Universe, it would still would not be a black dwarf. In fact it would be a multiple of about 10 times - and that's a guess - the age of the Universe before a neutron star cools sufficiently to become a black dwarf. Probably longer.
Actually if a star is medium or low mass is will run out of fuel and turn into a red giant, once the stars atmosphere slowly drifts away and the core is remaining it will eventually become a white dwarf For more massive stars it will turn in to a super giant the will cause a supernova, after the supernova the star can either a black hole or a neutron star
As far as we know, the sun will never become a neutron star. it will eventually become a Red Giant and then it will eventually become a white dwarf
No, unless it somehow acquires more mass. It requires more mass to become a neutron star.
The correct life sequence of a star starts with a protostar, which forms from a dense cloud of gas and dust. The protostar then evolves into a main sequence star, where it fuses hydrogen atoms to form helium in its core. Depending on its mass, the star will either become a red giant or a supergiant before eventually shedding its outer layers to become a white dwarf, neutron star, or black hole.
An object of one solar mass cannot become a neutron star.
No. Stars such as our sun become white dwarfs. Only stars 8-10 times the mass of the sun or more become neutron stars.
Low and medium sized stars will end up as white dwarfs.
No, a neutron star can't become a nebula. A neutron star is not made of atomic matter, has less mass than a nebula, and has no mechanism by which to expand.
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.
Some massive stars will become neutron stars. When massive stars die they will either become neutron stars or black holes depending on how much mass is left behind.
in some cases it becomes a red giant then later progresses into a wight dwarf . according to the main sequence . in other cases it becomes a red supergiant then a supernova takes place leading the dying star to become either a neutron star or a black hole according to the main sequence
Yes, eventually they all burn out. Stars with less than three solar masses will become a neutron star. These are extremely, extremely dense forms. Any larger and the star will become a black hole after going supernova.
-average size -expands and becomes a red giant -cools and contracts, becomes a white dwarf star -massive sized stars -swell and become red supergiants -explode (called a supernova) -become a black hole -become a neutron star