A black hole isn't a tunnel that leads somewhere. Things just fall until they hit the center, and are crushed into an almost infinitesimally small and dense speck by the enormous amount of gravity.
This is an interesting question that has spawned a lot of speculation. Falling into a black hole is generally agreed to be a one-way trip for the reason that nothing appears to travel faster than light and the escape velocity of a black hole is at least the speed of light; hence a tentative conclusion might be that it leads to a place separate from the universe, or perhaps outside the universe. Sometimes this is described as an alternate universe, a notion which might be supported by the potentially infinite subjective distance in the stretched space between the event horizon and the singularity; others have posited that black holes can power wormholes which might lead to another universe, or to another location in our universe, or perhaps to the complementary phenomenon which likely has yet to be observed, a white hole - a region of space time that cannot be entered from the outside but which could emit matter and light.
Due to the dangers of black holes and the difficulty of traveling to one or creating one, and because of the inability of information to escape them (including information about their content), the question is extremely difficult to answer for certain.
It will almost be impossible to figure out because anything that goes in them will be lost forever and destroyed and thats one of the only ways to figure it out.
The material sucked in to a black hole becomes part of the black hole - that is, a black hole crushes matter to an nearly no size, at all.
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 a type of star with excessive gravity. Here are some sentences.The star was sucked into the black hole close by.A black hole will even absorb light.The scientist is studying a black hole.
Neptune does not have a black hole
Into the black hole's singularity.
A black hole is the location of a singularity, it doesn't lead to anywhere. This means that if you fall into a black hole (assuming that you can stay alive) you'll just be stuck inside that hole forever--never able to get out.
Black Holes end up producing large quantities of gamma rays throughout their lives. This is one of the processes that lead to a Black Hole's demise.
No. The sun does not have enough mass to form a black hole. A black hole does not lead to another galaxy. Anything pulled into a black hole becomes part of that black hole's mass. Even then, if Earth were to fall into a black hole the same mass as the sun it would be torn apart by tidal forces long before it crossed the event horizon.
there is a black hole nearby and if you lead the sharks in the black hole they are gone and be careful to make sure you don't go in too
If you stay along the edge, your spaceship is powerful enough to keep from being drawn in.To dispose of Space Sharks in the black hole, shoot them until they all follow you, then slowly lead them up and right to the black hole.
Do you know where the black hole is shoot at one of the sharks and lead them to the black hole but stay around the black hole and the shark get's sucked in.Do it one at a time the ones that dont get sucked in teleport back to the planet.Oh and by the way im a kid!
they are around it and you have to lead them 2 the black hole
The collapses star gets squeezed by collapses gas and turns into a black hole.
The ending first: We don't know. Please re-read that. OK, what are the conjectures? A Black hole leads to another, somewhat parallel universe. A Black Hole leads "nowhere". A Black Hole leads to a different type of singularity. A Black Hole leads eventually to another "Big Bang" in another dimension. A black hole leads to a parking lot in Gelsinkirchen, Germany. There are many more. Please re-read the first sentence.
A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.
They don't "lead" anywhere. Any mass that falls into the black hole stays in the black hole. There is a theory that, in the case of rotating black holes, matter may emerge elsewhere from a "white hole". It's an idea that remains controversial and highly speculative.
A black hole originated as a star, that is, the star converted to a black hole.