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Stars become Red Giants when the main sequence ends in a star which can be different periods of time depend on if it is a high-massive star or a low-massive star. :)
The most massive stars will form ultra large stars, which will collapse into black holes upon their demise.
A black hole.
All of them
Massive
rrrrr
Multi-rehab memberships, and a very violent and painful return to mediocrity
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.
The massive stars turn into gas
Stars become Red Giants when the main sequence ends in a star which can be different periods of time depend on if it is a high-massive star or a low-massive star. :)
Some massive stars will become neutron stars. When massive stars die they will either become neutron stars or black holes depending on how much mass is left behind.
Some are but most are not. The sun is a star that is above the average mass.
Massive stars are brighter, they burn up faster, and they die younger, usually in very energetic explosions.
What I have learned about massive stars is...
Massive stars are most likely to explode faster than smaller stars.
Our Sun is a little bigger than average, but not by much. There are some stars that are over 150 times more massive, which is at the theoretical maximum size a star can have, The question is, what's "average" when it comes to a star? The better our telescopes get, the more we find very small, very dim stars that seem to bend the "average" down quite a bit.
Massive Stars Use Their Hydrogen Much Faster Than Stars Like The Sun Do.