Small Stars

SMALL STARS HAVE A MASS of up to about one and a half times of the Sun. They begin to form when a region of higher density in a nebula condenses into a huge globule of gas and dust that contracts under its own gravity. Within a globule, region of condensing matter heat up and begin to glow, forming protostars. If a protostar contains enough matter, the central temperature, nuclear reactions in which hydrogen fuses to form helium can start. This process releases energy, which prevents the star from contracting further and also causes it to shine; it is now a main sequence star. A star of about one solar mass remains on the main sequence for about 10 billion years, until much of the hydrogen in the star's core has been converted into helium.

The helium core then contracts, and nuclear reactions continue in a shell around the core. The core becomes hot enough for helium to fuse to form carbon, while the outer layers of the star expand and cool. The expanding star is  known as a red giant. When the helium in the core runs out, the outer layers of the star  may be blown away as an expanding gas shell called a planetary nebula. The remaining core (over 80 per cent of the original star) is now in its final stages. It becomes a white dwarf star that gradually  cools and dims. When it finally stops shining altogether, the dead star will become a black dwarf.