When do neutron stars, supernovas, and pulsars form during a star's life?

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Neutron stars, supernovae, and pulsars form at the end stages of a star's life, primarily in stars with masses between 1.35 and 2.1 solar masses for neutron stars and pulsars, and above 1.4 solar masses for supernovae. In massive stars (over 8 solar masses), the core undergoes nuclear fusion until iron and nickel are formed, leading to core collapse and a supernova explosion, resulting in a neutron star. A pulsar is a specific type of neutron star that emits beams of electromagnetic energy as it loses rotational energy. Lower mass stars do not undergo supernovae; instead, they become red giants and eventually leave behind white dwarfs. The discussion emphasizes the importance of understanding these stellar life cycles for comprehending the universe's evolution.
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can anyone tell me about various stages of life of a star? when does a neutron star, supernova, pulsar form?
 
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Different sized stars come to different ends, all the stages you have mentioned (neutron star, supernova, pulsar form) happen at the end of a stars life. Neutron stars and Pulsars usually happen in stars between 1.35-2.1 solar masses (mass of the sun) and supernova's 1.4+ solar masses.

Heres a good website about the life cycle of a star: http://aspire.cosmic-ray.org/labs/star_life/starlife_main.html

Hope this helps :)

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http://www.youtube.com/watch?v=DvQwXOCKNLY"
 
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utkarsh009 said:
can anyone tell me about various stages of life of a star? when does a neutron star, supernova, pulsar form?

In stars above 8 solar masses a star can cause it's core material to undergo nuclear fusion all the way to iron & nickel. Once they form in sufficient amounts the core becomes unstable because they require more energy to make than they produce by fusion. The core collapses into a super-dense state - neutronium - and an immense amount of gravitational energy is released in a massive burst of neutrinos and a tiny fraction of their energy causes the outer layers of the star to explode into space. That's the supernova, while the neutronium core is a neutron star. A pulsar is a neutron star which is losing it's rotational energy as beams of electromagnetic energy. Some pulsars can be sped up by accreting mass from a nearby star and become what's known as millisecond pulsars.

Lower mass stars don't form supernova. Instead they form red giant stars which blow away most of their mass into space, leaving behind a white dwarf star.
 
the riddler mentioned the best ever sites with all information and also interactive quizzes. thank you! but there is no information about pulsar. and for pulsar qraal just did what i had expected. thanks to you too! wow now i won't be confused in this part, at least. and again the quizzes on the sites were very good. :cool:
 
utkarsh009 said:
the riddler mentioned the best ever sites with all information and also interactive quizzes. thank you! but there is no information about pulsar. and for pulsar qraal just did what i had expected. thanks to you too! wow now i won't be confused in this part, at least. and again the quizzes on the sites were very good. :cool:

You're welcome :-)

Any more questions, just ask away. Most of us are pretty friendly around here.
 

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