No group at all. They are all different
No, Pollux is not a white dwarf, it is a orange giant star.
Red giant - Black dwarf. See related questions.
A giant star would experience a supernova explosion, in order to become a white dwarf.
A white dwarf.A white dwarf.A white dwarf.A white dwarf.
Initially the sun will swell up into a red giant shedding her out layers until she shrinks. When it dies out it will turn into a heavy and useless white dwarf and earth will be frozen and unlivable.
No. A pulsar is a neutron star.
No. A pulsar is a neutron star.
See related questions.
Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.
No, Pollux is not a white dwarf, it is a orange giant star.
Main-sequence,red giant,white dwarf.
White Dwarf, Sun, Red Giant, Supernova
Red giant - Black dwarf. See related questions.
; Binary Stars, Black Dwarf,Black Hole,Brown Dwarf,Galaxy,Main-Sequence Stars,Nebula,Neutron Star,Nova,Pulsar,Quasar,Red Giant,Supergiant,Supernova,Variable Star,White Dwarf,Wolf-Rayet Star...................
The density of a pulsar or neutron star is much greater than that of a white dwarf. A typical (if there is such a thing) neutron star has a density of between 8.4 × 1016 to 1 × 1018 kg/m3 whereas a white dwarf has a density of about 1 × 109 kg/m3
A giant star would experience a supernova explosion, in order to become a white dwarf.
A giant star is a dying star that expanded, and the core shrinks are the same time. When the shell of the giant star drift into space as planetary nebula, the core became a white dwarf. The white dwarf is made from the core of the giant star.