There is no known non-fictional stage after the formation of a black hole (in our traditional fourth dimensional SpaceTime continuum). A black hole is conjectured to evaporate without transforming into an other astronomical phenomenon.
Note: While the speed of such evaporation is still very theoretical, the final stage of the evaporation for a black hole has been described to proceed so rapidly that it would end in a tremendous explosion. How powerful this explosion would be depends on how many different species of elementary particles there are. If, as is now widely believed, all particles are made up of perhaps six different kinds of quarks, the final explosion would have an energy equivalent to about 10 million one-megaton hydrogen bombs.
An alternative theory of elementary particles put forward by R. Hagedorn of the European Organization for Nuclear Research argues that there is an infinite number of elementary particles of higher and higher mass. As a black hole got smaller and hotter, it would emit a larger and larger number of different species of particles and would produce an explosion perhaps 100,000 times more powerful than the one calculated on the quark hypothesis. Hence the observation of a blackhole explosion would provide very important information on elementary particle physics, information that might not be available any other way.
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∙ 11y agoAfter a black hole forms, it will continue to exist indefinitely, slowly evaporating through a process called Hawking radiation. As it loses mass, it will eventually reach a point where it can no longer hold itself together, leading to a final explosion known as a black hole evaporation. This leaves behind only radiation and particles, eventually dissipating completely.
Basically there is no "next stage". Well, it is believed that a black hole will evaporate, but that will take a long, long time.
No, a black hole does not have the ability to suck in the entire universe. Black holes have a strong gravitational pull, but they are finite in size and only affect objects within a certain range. The universe is vast and composed of countless galaxies, so it is not possible for a black hole to engulf everything.
A black hole is a region of space in which gravitation is so strong that not even light can escape found at the centers of galaxies and also as the final stage after the death of very massive stars.
Into the black hole's singularity.
Nothing known is denser than the densest of neutron stars except a gravitational singularity (Black hole). The upper limit of the inward pressure a neutron star can handle before further implosion is dictated by neutron degeneracy pressure. However, theoretically (Not yet observed but probably out there) the next step would be a quark star, that is, a star that is held from implosion by quark degeneracy pressure. Then the next stage would be a black hole. Technically there is yet another stage in between a qaurk star and a singularity called preon degeneracy prssure but the preon models are too flawed to even consider.
Basically there is no "next stage". Well, it is believed that a black hole will evaporate, but that will take a long, long time.
Yes black hole is last stage of a star
similarly black hole is the last stage of star....
For a star like ours, the black dwarf stage For an immensely massive star, a back hole.
Yes. Intermediate-mass blackhole is a medium size black hole. Scientists have found stellar black holes and supermassive black holes but there is no prove that Intermediate-mass black type of black holes exist. My opinion is that they do exist because when a black hole is becoming a black hole supermassiveblack hole it will need to go though this stage of intermediate-mass black hole.
Many theories have come into existence. The recent one is the hyperspace which states that our universe is like a 3D event horizon of a 4D black hole. So the 3D black holes in our universe there are 2D event horizons consisting of 2D universes. Now a black hole is a hole in the fabric of space-time. So actually it is the last stage itself. Its like the hole in a bathtub or the sink from where all the contents escape to somewhere else.
Neutron star -- then black hole
Not really, but in a Galaxy next to the milky way there is alot of activity and possibly a black hole.
We believe that the nearest black hole is V616 Monocerotis, which is about 3500 light years away.
For a star like ours, the black dwarf stage For an immensely massive star, a back hole.
Most likely not. The chances of our solar system encountering a black hole even in the next few billion years is quite small.If there were a black hole on its way, though, we would not know about it.
Obviously it is possible, but in the short term - or even for the next billion years or so - it is extremely unlikely for Earth to collide with a black hole.