Black holes are created when a star runs out of fuel and collapses.
That is a nova, A black hole is made when a neutron star goes SuperNova and the energy tears a hole in space, creating a strong gravitational singularity.
A black hole becomes stronger as it increases in mass, which results in greater gravitational pull. When matter falls into a black hole, it adds to its mass, making it "stronger" in terms of its gravitational influence on surrounding objects.
Anything that falls into a black hole becomes part of that black hole's mass, which makes the gravity stronger and causes the event horizon to grow larger.
Into the black hole's singularity.
The object swallowed by the black hole is destroyed; its mass is added to the mass of the black hole.
Nothing can escape from a black hole.
In a black hole, gravity is so strong that nothing, not even light, can escape. This means that whatever goes into a black hole is trapped inside forever, making the saying "what happens in a black hole stays in a black hole" true.
A black hole is called a black hole because it is a region in space where gravity is so strong that nothing, not even light, can escape from it. This makes it appear black or invisible. What makes black holes different from other celestial objects is their extreme density and gravitational pull, which can distort space and time around them. This creates unique properties such as an event horizon, where anything that crosses it is pulled into the black hole.
No, a supermassive black hole is what makes a quasar.
Yes, a black hole can move a planet. Black holes are so massive that they can alter the orbits of stars and star systems. This makes changing planetary motion nothing to a black hole.
No. A black hole cannot "pop." putting more material into a black hole only makes it stronger. That said, if too much material approaches a black hole at once not all of it can enter. The excess gets ejected at the black hole's poles in jets at nearly the speed of light.
A black hole becomes stronger as it increases in mass, which results in greater gravitational pull. When matter falls into a black hole, it adds to its mass, making it "stronger" in terms of its gravitational influence on surrounding objects.
Anything that falls into a black hole becomes part of that black hole's mass, which makes the gravity stronger and causes the event horizon to grow larger.
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.
The question makes no sense. Altitude has nothing at all to do with black hole formation. "Altitude" really only has any significant meaning in terms of Earth and humans, and it is as far as we know absolutely impossible to "make" a black hole at any altitude.
A black hole originated as a star, that is, the star converted to a black hole.
A giant supermassive black hole is just remains of a once great star, and it collapsed into on itself, pressurizing so much gravity that it makes a hole in time and space in this universe, sucking in anything, so basically it is just a hole of gravity.
The theory of a black hole and galaxies is that a black hole created a galaxy or was formed by a galaxy, if that makes sense.Eventually, our solar system will get sucked in. But this will happen in about over a billion years!add. For such a size of black hole, the timescale would be in the billions of years. But before which our Sun would have overwhelmed our Earth in its Red Giant phase.