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guysensei1
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Can they exist?
What happens when an antimatter black hole and a normal black hole collide?
What happens when an antimatter black hole and a normal black hole collide?
bahamagreen said:Tossing antiprotons into a matter BH with positive charge would annihilate protons and make the net charge on the BH more negative.
Tossing antiprotons into an antimatter BH with positive charge would make the BH more positive because there would be no anihilation; neither the exiting antiprotons nor antielectrons would annihilate with the added antiprotons, so the antiprotons just add positive charge.
bahamagreen said:Tossing antiprotons into a matter BH with positive charge would annihilate protons and make the net charge on the BH more negative.
That is correct, all the particles that previously crossed the EH are no longer available for interaction.bahamagreen said:So, the problem is that whatever I toss in is not able to encounter any antipartners with which to annihilate?
Specifically, Chronos; there is no way for interactions and annihilations, etc. to occur between the EH and the singularity?
Or are you suggesting that the charge of a BH is an external attribute (based on what enters) and not on what happens inside (hidden interactions that can't influence the outside charge), or both, or neither, something else?
Antimatter is a type of matter that has the opposite charge and other properties of regular matter. When antimatter comes into contact with regular matter, they annihilate each other, releasing a huge amount of energy. Some theories suggest that black holes could contain regions of antimatter, which could potentially lead to the formation of antimatter black holes.
The main difference between antimatter black holes and regular black holes is the type of matter they are composed of. While regular black holes are made of regular matter, antimatter black holes are made of antimatter. This could affect their properties, such as their gravitational pull and how they interact with regular matter.
There is currently no evidence to suggest that antimatter black holes exist in our universe. However, some scientists believe that they could potentially exist in the far reaches of our universe or in regions with high concentrations of antimatter.
If a regular black hole and an antimatter black hole were to collide, they would likely annihilate each other, releasing a massive amount of energy. This could potentially create a burst of gamma rays, which would be detectable by telescopes on Earth.
Currently, there is limited research being done on antimatter black holes due to the lack of evidence for their existence. However, some scientists are studying the properties of antimatter and its potential interactions with regular matter, which could provide insights into the formation and behavior of antimatter black holes.