A star turns in its own axis, causing it to rotate and appear to move across the sky. This rotation is what gives us the sense of day and night.
The two major factors that determine the size of a star are its mass and its age. A star's mass dictates how much material there is to form the star, while its age influences the stage of its life cycle, which in turn affects its size.
Yes, a star of low to medium mass, like the sun, will eventually turn into a white dwarf at the end of its life cycle. This occurs after the star has exhausted its nuclear fuel and shed its outer layers.
A star 30 times larger than the sun will likely turn into a red supergiant as it exhausts its nuclear fuel and undergoes stellar evolution. Eventually, it may end its life in a spectacular supernova explosion, leaving behind either a neutron star or a black hole depending on its mass.
The color of a star determines the heat of the star. For example; a white dwarf star does not produce nearly as much heat as our sun does. However, one day, our sun will turn into a white dwarf star. When this happens there will not be enough heat to live on Earth.
A star turns into a red giant when it lose fuel and die. If a star isn't a massive star then it expands into a red giant. After that it becomes a white dwarf. If its massive then it collapses on itself and turns into a black hole.
a dwarf star
no it can not turn to stone..
It will turn into a white dwarf star, after being a red giant star.
The sun is a star, and always has been.
It will turn into a giant star, explode, and turn into a nebula.
The cast of The Star Turn - 1990 includes: Nigel Bennett
Turn into a star
Depending on the mass of whatever is left over of a star, it can turn into a white dwarf, a neutron star, or - in the case of the most massive stars - a black hole.
it depends on the mass. If the star is small and it dies then it will turn into a red giant then a white dwarf. But if the star has enough mass and is bigger than any other star then it will collapse and turn into a black hole.
by the red star
genetics?
Yes.