The more mass a star has the less time it has to live or "be a star."
The less mass a star has the longer it has to live.
The sun is also a star.
As stars burn, they shed matter, becoming less massive slowly throughout their life cycle. This reduction in mass necessarily lessens their gravity, causing the stars' diameter to increase. So, many end-stage stars will be huge and bloated. Massive red giant stars are examples of this.
They both study structure: Strcture of the stars, and structure of a building.
Its an Hertzsprung-Russel (H-R) diagram.
Blue stars are the hottest, and red stars the coolest. Our sun is orangey, so it's kinda in between blue (hot) and red (cool).
It is believed that the soul undergoes a journey to the stars.
The sun is also a star.
1. What stages do stars go through?
yes
The mass could either be a red giant or a super giant, they both evolve into different ways, after a star runs out of fuel, it becomes a white dwarf, a neutron star, or a black hole.
edwin hubble
The mass could either be a red giant or a super giant, they both evolve into different ways, after a star runs out of fuel, it becomes a white dwarf, a neutron star, or a black hole.
The mass could either be a red giant or a super giant, they both evolve into different ways, after a star runs out of fuel, it becomes a white dwarf, a neutron star, or a black hole.
The stars don't determine if someone will leave or not, but how the relationship is between you.
As stars burn, they shed matter, becoming less massive slowly throughout their life cycle. This reduction in mass necessarily lessens their gravity, causing the stars' diameter to increase. So, many end-stage stars will be huge and bloated. Massive red giant stars are examples of this.
All stars spend the majority of their lives on the main sequence. Once high mass stars have exhausted the hydrogen fuel in their cores they expand into much larger red or blue supergiant stars.
The sun is one of an estimated 400 billion stars in our galaxy.