This is true to the extent that no violation of baryon number conservation has ever been experimentally observed. If physicists could work out that math, then you could create microscopic antimatter black holes by smashing together anti-hydrogen particles, and the costs involved would dwarf the production of antimatter itself. Answer (1 of 8): Wikipedia says that Baryon number - Wikipedia is a strictly conserved additive quantum number of a system. (Quantum mechanics allows matter/antimatter pairs to. It's possible that the Large Hadron Collider is capable of creating microscopic black holes, although none have been created yet. Stephen Hawking famously discovered that black holes can lose mass by emitting elementary particles. Of course, the gravity of a black hole is so immense that nothing, not even light can escape. The two would be annihilated and turn into pure energy. The flavors of the finest matured rum with delicious vanilla. Not so but the wonderful mixture of antimatter. Imagine a regular flavor and an antimatter flavor black hole with the same mass slamming together. Black Hole the black hole, a place of uncertainty. Each collision creates a tiny handful of particles that could be collected and contained in a magnetic field to hold them in place and keep them from being annihilated.Īccording to NASA, a single gram of antihydrogen would cost about $62.5 trillion to create, the most expensive material we could possibly make on Earth. Black holes turn everything, both matter and energy, into more black hole. The collective momentum of the particle is converted into mass using Einstein's famous e=mc2 calculation. Antimatter is produced in particle accelerators, protons are accelerated in an enormous ring, pushed to nearly the speed of light, and then smashed into each other's faces. Also, creating an antimatter black hole would be expensive.
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