No. A black hole will remain a black hole. A neutron star is a remnant of a star not massive enough to become a black hole.
No.
Depending on the mass of whatever is left over of a star, it can turn into a white dwarf, a neutron star, or - in the case of the most massive stars - a black hole.
black holes come from dead stars like our sun it may turn into one when they die they become really big then explode and some become into a black hole if not it becomes into a black or white dwarf
Neither. Our Sun will turn into a red giant, and then cool to become a white dwarf.
It depends on the density. Low density = dwarf Medium density = neutron star High density = black hole
A star after its death becomes a black hole. It is found that a star of any mass,at the stage of its death becomes a Supernova, or it may turn out to be a white dwarf or a neutron star, after its final stage the compression of gasses present in them and due to the very high temperature,they become a black hole. Hence a medium star cannot turn to be a black hole. Hope you to be satisfied with my answer. ty.... :-)
Depending on the mass of whatever is left over of a star, it can turn into a white dwarf, a neutron star, or - in the case of the most massive stars - a black hole.
black holes come from dead stars like our sun it may turn into one when they die they become really big then explode and some become into a black hole if not it becomes into a black or white dwarf
A neutron star or, if there's enough mass remaining, a black hole.
A neutron star may be considered "already dead"; it has stopped producing energy. A neutron star will gradually get dimmer, as it cools down. If it gathers enough mass from its surroundings, it may turn into a black hole.A neutron star may be considered "already dead"; it has stopped producing energy. A neutron star will gradually get dimmer, as it cools down. If it gathers enough mass from its surroundings, it may turn into a black hole.A neutron star may be considered "already dead"; it has stopped producing energy. A neutron star will gradually get dimmer, as it cools down. If it gathers enough mass from its surroundings, it may turn into a black hole.A neutron star may be considered "already dead"; it has stopped producing energy. A neutron star will gradually get dimmer, as it cools down. If it gathers enough mass from its surroundings, it may turn into a black hole.
Our Sun is not nearly massive enough to become a black hole, or even a neutron star. Our Sun will end its life as a white dwarf.
Neither. Our Sun will turn into a red giant, and then cool to become a white dwarf.
It depends on the density. Low density = dwarf Medium density = neutron star High density = black hole
The Sun probably won't turn into a black hole. What determines whether a certain star becomes a black hole is basically the amount of mass left over, once the star runs out of energy. Less massive stars turn into white dwarves; more massive stars into neutron stars; and the most massive of all, into black holes.
A star after its death becomes a black hole. It is found that a star of any mass,at the stage of its death becomes a Supernova, or it may turn out to be a white dwarf or a neutron star, after its final stage the compression of gasses present in them and due to the very high temperature,they become a black hole. Hence a medium star cannot turn to be a black hole. Hope you to be satisfied with my answer. ty.... :-)
No one knows for sure, since there is not enough information to figure it out. After a supernova, the star will either turn into a black hole, a neutron star, or a pulsar. But, there is no scientific evidence that proves which one the star will turn into after a supernova.
Depends on the amount of mass that is added. In general it would probably either turn into a quark star, or if the mass is great enough a black hole.
the simple reson is mass.......that is if the star under consideration is a heavy one, it is more likely to turn into a black hole and if it is comparatively smaller it is prone to turn into a neutron star or a white dwarf