Either a neutron star or a black hole.
Note: These are not really stars but stellar remnants.
A supernova is not a single star, but an event that occurs to the most massive stars when they reach the end of their life. Therefore it cannot be named. See related questions for details on Supernova
Massive Stars.
SuperNova
Oops! Not all stars end up as a supernova. To become a Type 2 supernova, the star has to be between 8 and 50 times larger than the Sun.
Its called a Supernova.
it is only produced when a star explodes as a supernova.
During supernova events.
All elements up to Iron are produced by smaller stars. heavier elements (everything heavier then iron) are produced from larger stars when they go supernova.
All elements up to Iron are produced by smaller stars. heavier elements (everything heavier then iron) are produced from larger stars when they go supernova.
A supernova is not a single star, but an event that occurs to the most massive stars when they reach the end of their life. Therefore it cannot be named. See related questions for details on Supernova
A supernova can be massive but some aren't. Every supernova is a dieing star. Supernovae are exploding stars. They represent the very final stages of evolution for some stars. Supernovae, as celestial events, are huge releases of tremendous energy, as the star ceases to exist, with about 1020 times as much energy produced in the supernova explosion as our Sun releases every second.
They are both formed when a massive star explodes as a supernova. Which, is produced depends on the original mass of the star.
Heavy elements were formed in stars, and blown out into space in supernova explosions.
Do you mean SuperNova as in the event of the sun expanding to burn up the inner planets after it has used the last of its available fuel? Yes it is true that science believes this will happen, but realistically we have no way of knowing how or when, exactly it will happen (I.E overnight or over the period of years) Dont worry though, its not scheduled to happen for about another 5 Billion years! Besides, OUR Sun will never go supernova; only stars much larger than our sun can do that. And we've already BEEN IN one; all of the heavy elements of our planet were produced during supernova explosions early in the universe's life.
No, only large stars go supernova when nuclear fusion breaks down. While white dwarfs can go supernova in some instances, brown dwarfs are failed stars which are not powered by nuclear fusion.
Heavy stars go supernova at the end of their lives.
Massive Stars.