Depends on the mass. Stars can come in many different colors, and no color at all -> if the mass is high enough, the star is considered a black hole, where the mass generates so much gravitational force that nothing, not even light, can escape.
The color of a star is mainly related to the star's surface temperature. This is only remotely related to the star's mass; for example, high-mass stars can either be very hot (blue) or not-so-hot (red), depending on the phase in the star's life.
High mass.
A high mass star will leave behind either a neutron star of a black hole.
High mass.
no the sun is a medium mass star.
It can't. A blue star is a high-mass star. A yellow star has a medium mass.
no the sun is a medium mass star.
High mass stars are typically blue in color. This is due to their extremely high temperatures, which can exceed 30,000 Kelvin, causing them to emit light predominantly in the blue and ultraviolet parts of the spectrum. Their intense heat and brightness result in a blue hue, distinguishing them from cooler, lower mass stars that appear red or yellow.
A low mass star typically appears red in color due to its cooler surface temperature. This type of star is classified as a red dwarf and emits a reddish light compared to higher mass stars.
A low mass star will become a white dwarf star, eventually this will cool to become a black dwarf. A high mass star (at least 8 times the mass of our Sun) will form a neutron star or a black hole, after a supernova event.
white dwarf
No. It is a typical star of the main sequence for its mass. The composition and mass of each star determines its color, size, and life cycle.