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Neutron stars are formed when stars with more than 8 times the mass of the Sun run out of fuel and explodes as a supernova. After the star explodes, the core of the star remains, the core would then become a neutron star or a black hole. If the core remain is less than 3 times the mass of the sun, it would become a neutron star.
Only in that they where formed by the same process. A neutron star formed from a star with less mass than a black hole
Whether a star will become a neutron star is determined by its mass. Generally, stars that are more than 8 solar masses (have a mass that is more than 8 times that of our Sun), but are less than 15 solar masses will become neutron stars when they die.
If enough mass is left over after the supernova explosion, i.e. after material is blown off into space, the star will become a black hole. Less massive stars will become neutron stars. A neutron star can convert to a black hole later, if enough matter falls into it.
Neutron because it is part of the nucleus
Black holes are formed by super massive stars when they collapse. Less massive stars will form neutron stars. Therefore, the original size and mass of the star will determine if a black hole will be created when the star collapses.
Yes, and the equalizer is pretty good. But to be honest, when you rotate the phone it stops for less than a second.
A neutron, which has neutral charge
Yes, eventually they all burn out. Stars with less than three solar masses will become a neutron star. These are extremely, extremely dense forms. Any larger and the star will become a black hole after going supernova.
A gamma ray burst results from an extremely energetic implosion/explosion, as in supernovae or hypernovae events, or the less likely possibility of the combination of 2 neutron stars.
Saturn has the lowest density of all the planets in our Solar System. It has a density less than water, so it would actually float if you could find a big enough bath. There is a possibility, that there are planets less dense than Saturn outside of our Solar System, but we have yet to find any.
A proton has slightly less mass than a neutron.