When a star starts to run out of fuel, it will begin to cool, and as it cools, it begins to collapse. If a star is massive enough, there will come a point where the neutrons in the centre of the star can no longer withstand the force of gravity acting upon it. This then results in the star continuing to collapse further; it becomes more and more dense, and ultimately forms a black hole.
Bellatrix is a fairly massive star, so it may well turn into a black hole. However, it is hard to predict whether an individual star will turn into a black hole; what matters is not the current mass, but how much mass is left over at the end of a star's life, once it runs out of fuel - possibly after a supernova explosion, which may blow much of the star's matter into space.
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.
It probably won't ever become a black hole, unless for some reason a lot of additional matter falls on the Sun. Stars the mass of our Sun become white dwarves after they run out of fuel.
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.
A black hole is basically an imploded star's remnants that DO NOT turn into a nebula or space dust of some type. However, for a "dead" star to become a black hole it must be very big and have tons of mass. The Sun doesn't have that size requirement, therefore cannot be a black hole theoretically.
No, the sun is too small. For a star to turn into a black hole, the star needs to measure 25 or more solar masses. The sun weighs in at 1 solar mass. Therefore, a star needs to be 25 times the mass of the sun to turn into a black hole.
It is unlikely, because the Sun doesn't have enough mass for that to happen.
Bellatrix is a fairly massive star, so it may well turn into a black hole. However, it is hard to predict whether an individual star will turn into a black hole; what matters is not the current mass, but how much mass is left over at the end of a star's life, once it runs out of fuel - possibly after a supernova explosion, which may blow much of the star's matter into space.
Because it does not have enough mass to crush itself with it's gravity.
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.
Simply put, it isn't big enough. A star must have a certain mass to become a black hole after its "death", and the Sun doesn't have enough. Our "Sun" is not big enough, only stars that are a lot bigger will explode and become a 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.
The Sun doesn't have enough mass, and therefore, not enough gravity, for this to happen.
A neutron star or, if there's enough mass remaining, a black hole.
The sun cannot become a black hole. For a star to form a black hole it must be at least 25 times the mass of the sun. When a star like this runs out of fuel in its core, the core collapses and becomes a a black hole while the outer layers are blasted away in a supernova.
If a black hole has spin, it will spin forever.
It probably won't ever become a black hole, unless for some reason a lot of additional matter falls on the Sun. Stars the mass of our Sun become white dwarves after they run out of fuel.