A body's mass increases when it aquires velocity. It approaches infinity when the velocity approaches the speed of light. This will not result though in the formation of a black hole.
A micro black hole in reach for observation is speculated to exist in a theory that tries to unify the three basis forces with gravity. Extra curled up space dimensions are postulated and these dimensions can make gravity vary in a non-$\frac{1}{r^2}$ way. Because of this the mass needed to produce a micro black hole is in reach for experimental probing. See this article for more details.
One can read that two colliding protons can (according to the theory) form a micro black hole. It's obvious that two protons with a high enough relative velocity can have a mass equivalent of a micro black hole. But if the protons can't form black holes at high enough velocities, how can a black hole be formed after they have collided? How emerges a black hole spacetime in this case?
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1 Answers
"A body's mass increases when it acquires velocity" is false. Velocity is relative, so any apparent increase in mass is entirely in the eyes of the observer moving relative to the body, i.e. it's an artifact of the coordinate system. That's why modern relativity textbooks generally avoid "relativistic mass" and only talk about "invariant mass" or "proper mass" (the rest mass of the object).
So a single proton moving very fast relative to you won't form a black hole, any more than you would form a black hole because you're moving very fast relative to the proton.
However, two protons moving in opposite directions do have an invariant kinetic energy associated with the whole system. That is, every observer can agree that the total system of protons has energy greater than the sum of the rest masses -- no matter what you consider to be "at rest", one or both of the protons is going to be moving.
One could imagine that if the protons collide this kinetic energy could end up concentrated in a small enough region to form a black hole. Whether this could in fact happen in the real world is another question, and probably requires a quantum theory of gravity (which we don't have!) to answer for sure. Certainly it has never been observed.
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