Galaxies contain varying numbers of star systems, star clusters and types of interstellar clouds. In between these objects is a sparse interstellar medium of gas, dust, and cosmic rays. The bulge is actually the outline of a black hole's ergosphere, wherein such matter is being gravitationally attracted.
It should also be noted that galaxies are actively evolving; i.e. providing for the birth of new stars, star systems, and star clusters. This process is more apparent in the areas of gravitational disruptions, like a galaxy's central black hole. Consequently, the sparse interstellar medium of gas and dust can form stars in the ergosphere area of a black hole due to the intense gravitational pressure and drag.
There is an upper limit to the mass of neutron stars because if the neutron star is too massive, neutrons would be crushed by the gravity of the neutron star, and the neutron star would collapse into a black hole.
It is not old enough. It is estimated that it would take trillions of years for a white dwarf to a black dwarf. The universe is only about 13.8 billion years old.
False, in fact our sun is rather small. There are much larger stars that, if they died, would create a supernova or even a black hole. Our star although would only die and turn into a White Giant.
I am not sure what a "you stas" is. If you mean "stars", a black hole can indeed gobble up an entire star, if it gets close enough. Please note that we are in no immediate danger; the closest known black hole is at a distance of about 3000 light-years; but even a regular black hole at the distance of Alpha Centauri would pose no danger.
In the course of normal stellar evolution, at end of its life the Sun wouldn't spontaneously become a black hole simply because it lacks sufficient mass. The minimum mass of a stellar black hole would be about 25 times that of our Sun; effects through which stars lose mass would also need to be considered.
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If there is then we, being right beside a star, cannot know of it. We appear to be surrounded by stars and galaxies.
Black Holes are the most dense. Second to black holes would be Neutron Stars
In all probability - not that this scenario would happen - but the resulting combination of masses, would push the combined "stars" over the Chandrasekhar limit and a black hole would form.
by the way you spelt surrounded wrong!!!!!! how would you be surrounded in helium!!!!!!??????????????????
I don't think there would be planets, but I know there are stars!
The "corpses" of stars may be white dwarves, neutron stars, or black holes (and perhaps "quark stars", but this is still very speculative). In general, the least massive stars - which also tend to be smaller - will become white dwarves. These are much smaller than "active" stars, but much larger than neutron stars or black holes. The more massive the star, the SMALLER will the white dwarf be - due to the increased gravity. Our Sun has a diameter of 1.4 million kilometers; other stars can be several times smaller, or larger - but a white dwarf only has a diameter of a few thousand kilometers. More massive stars become neutron stars, which have a diameter of 20-30 km - and an immense density, similar to that of an atomic nucleus. The most massive stars end up as black holes. Here, the only "diameter" that can be observed from the outside is that of its event horizon, which is directly proportional to the black hole's mass. A black hole the mass of the Sun would have a Schwarzschild radius (the radius of its event horizon) of about 3 km; therefore its "diameter" would be about 6 km. A black hole a billion times the mass of the Sun would have a Schwarzschild radius of 3 billion kilometers.
There would be no life.
No. It is estimated that it would take trillions of years for a white dwarf to cool to a black dwarf. The universe is not old enough for that to have happened yet.
the sky would be black because if there was no atmosphere then light would be able to get in easlily. you would be able to see stars during broad daylight.
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i think it would b 1 out of 12