White holes were long thought to be a figment of general relativity born from the same equations as their collapsed star brethren, black holes. Just as nothing can escape a black hole, nothing can enter a white hole. White holes are theoretical cosmic regions that function in the opposite way to black holes. It only makes the black hole more massive. Feeding in antimatter won't do any good, it's just like regular matter or energy. The bottom line is: If a regular black hole and an antimatter black hole got black-hole-married in space, they wouldn't vanish. What if a black hole met an antimatter black hole? Other scientists think the effects of dark matter could be explained by fundamentally modifying our theories of gravity. Several scientific groups, including one at CERN's Large Hadron Collider, are currently working to generate dark matter particles for study in the lab. That should save you some money in wasteful antimatter production. The media calls the Higgs boson the God particle because, according to the theory laid out by Scottish physicist Peter Higgs and others in 1964, it's the physical proof of an invisible, universe-wide field that gave mass to all matter right after the Big Bang, forcing particles to coalesce into stars, planets, and … Can antimatter destroy black holes? First of all, antimatter is just like regular matter except that its charge and some other properties are flipped. In fact, there is no difference between an antimatter black hole and a regular-matter black hole if they have the same mass, charge, and angular-momentum. Instead of a proton, its antimatter equivalent is called an anti-proton with a negative charge. In antimatter, the charges of each particle are reversed. In the atom, the protons and neutrons make up the nucleus, which is the core, and the electrons orbit the nucleus much like a planet around a star. Dark matter and dark energy are the opposite: they are concepts that theoretical physicists never wanted, but which are forced on us by the observations. All these particles form what we call atoms. What is the opposite of dark matter?Īether was a concept introduced by physicists for theoretical reasons, which died because its experimental predictions were ruled out by observation. If you were, for example, to place positrons or anti-protons and dark matter together nothing would happen. So dark matter particles will only annihilate with anti-dark matter particles of the same type. What would happen if antimatter touches dark matter? It is a bit puzzling, though, since one of the core tenets of fundamental physics is CPT symmetry, which essentially says that an antimatter universe should behave exactly the same as a matter universe. I never considered the possibility of antimatter being dark matter. ![]() What if a black hole met an antimatter black hole?.What would happen if antimatter touches dark matter?.
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