This stage is reckoned to last for about 100,000 years.
In fact, the sun is not massive. It is an average, yellow star. When the sun goes into its next stage, it becomes a red giant. This could consume the whole solar system. Then, when it burns out, the gases escape into space, and it becomes a little tiny star called a white dwarf. Eventually it will burn out, and that's how the sun's lifecycle works.
The red giant stage, where a star like our sun swells to a much larger size. Then it collapses into a white dwarf.
star birth, protostar stage, main sequence stage, red giant stage, then burnout and death
A white dwarf is a small luminous sphere about the size of the earth which is the final stage after the death of a star about the mass of the Sun.
It should become a white dwarf star.
This stage is reckoned to last for about 100,000 years.
In fact, the sun is not massive. It is an average, yellow star. When the sun goes into its next stage, it becomes a red giant. This could consume the whole solar system. Then, when it burns out, the gases escape into space, and it becomes a little tiny star called a white dwarf. Eventually it will burn out, and that's how the sun's lifecycle works.
The red giant stage, where a star like our sun swells to a much larger size. Then it collapses into a white dwarf.
star birth, protostar stage, main sequence stage, red giant stage, then burnout and death
A white dwarf is a small luminous sphere about the size of the earth which is the final stage after the death of a star about the mass of the Sun.
The Sun is a medium mass star on the main sequence.
The Sun is a medium mass star in main sequence.
the stage on the star is me not you because newton is black in forest
A Pulsar.
Our Sun is in the hydrogen fusion cycle of an average, mid-size, main sequence star. I have no idea what state YOUR Sun happens to be in.
The final elements fused in a star of the mass of our Sun are Oxygen then Carbon. Therefore a white dwarf core could be regarded as a solid, gigantic diamond.