red
The Sun is a medium mass star in main sequence.
Juvenile star is typically classified as a low mass star, as it is in the early stage of its life cycle. These stars have a mass similar to that of the Sun or less. They are characterized by their long lifespan and relatively stable nature.
Sirius B is a white dwarf. So it is low mass compared to other stellar remnants.
A red dwarf.
As always the case, what we see is not always true.Alpha Cenauri is in fact a triple star system, comparison not surprising a, b, and c stars.A is a normal main sequence star - so not low massB is a normal main sequence star - so not low mass, slightly cooler.C is a red dwarf star - a low mass star
High mass.
A white dwarf is the remnant of a low to medium mass star.
Helium. A low mass star does not have enough mass to generate the heat needed to fuse helium.
The Sun is a medium mass star in main sequence.
Barnard's Star is a very low-mass red dwarf star and has a spectral type of M4V.So it has the colour red.
ur mother
High mass.
There are more low mass stars. this is for two reasons:- # the star forming process generates more low mass stars # High mass stars burn out very quickly and explode as supernovas and thus over time there are less and less of them.
The sun is a low mass sequence star. It is classified as a G-type main-sequence star, which means it is in the middle of its stellar evolution and will remain stable for billions of years.
white dwarf
a low mass protostar is the begining formation of a low mass star. a low mass protostar is formed by a nebula (stellar nursery), like a cloud in space, where all stares come from. the definition of protostar is: a collection of gas, and dust who`s gravitational pull is causing it to collapse on itself & form a star. a LOW MASS protostar just has a LOWER MASS then a HIGH MASS protostar. Your Welcome:)
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.