What if all the black holes in the universe collide?

What if all the black holes in the universe collide?

The excess energy from the collision would be expelled back into the Universe as gravitational waves. As I mentioned before, colliding black holes can change the shape of the space around them. These black holes have a mass of at least hundreds of thousands of times the mass of our Sun.

Can you go fast enough to get enough mass to become a black hole?

The mass of an object therefore does not change when it travels at high speed. This fact is predicted by Einstein’s theories and verified by experiment. An object can never be turned into a black hole, or even be made slightly overweight by speeding it up.

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Could black holes be used as an energy source?

Black holes emit what’s called Hawking Radiation which if properly harnessed can generate enough electricity to power an interstellar ship! There is a lot more to black holes than just being large holes in space that are devoid of light. Theoretically, they can also be used as an energy source.

Does speed affect gravity?

But if we are talking about gravitational force on the body, then YES. As the speed of the body increases, mass(relativistic) also increases and so the gravitational force.

Did the first matter in our universe come from black holes?

The result of this recoil matches observations of the universe’s shape, geometry, and distribution of mass. In turn, the torsion mechanism suggests an astonishing scenario: every black hole would produce a new, baby universe inside. If that is true, then the first matter in our universe came from somewhere else.

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How do stars end up collapsing into black holes?

As in the standard version of general relativity, very massive stars end up collapsing into black holes: regions of space from which nothing, not even light, can escape. Here is how torsion would play out in the beginning moments of our universe.

Does spacetime torsion exist in black holes?

Spacetime torsion would only be significant, let alone noticeable, in the early universe or in black holes. In these extreme environments, spacetime torsion would manifest itself as a repulsive force that counters the attractive gravitational force coming from spacetime curvature.

Where did the first matter in our universe come from?

If that is true, then the first matter in our universe came from somewhere else. So our own universe could be the interior of a black hole existing in another universe. Just as we cannot see what is going on inside black holes in the cosmos, any observers in the parent universe could not see what is going on in ours.

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