The potential relationship between antimatter and black holes is not fully understood, but some theories suggest that antimatter could be present in the vicinity of black holes. Antimatter is the opposite of normal matter, and when it comes into contact with regular matter, they annihilate each other, releasing a large amount of energy. In the extreme conditions near a black hole, it is possible that antimatter could be created or attracted, leading to unique interactions and phenomena. Further research is needed to fully understand this potential relationship.
No, a black hole is not made of antimatter. A black hole is formed when a massive star collapses under its own gravity to a point of infinite density, known as a singularity. Antimatter is composed of particles with properties opposite to those of normal matter, such as having opposite electric charge.
The relationship between the mass of a black hole and its density is that as the mass of a black hole increases, its density also increases. This means that a black hole with a higher mass will have a higher density compared to a black hole with a lower mass.
Antimatter can be found in small quantities on Earth in particle accelerators and in outer space, such as in cosmic rays and near black holes. It is a rare substance that is difficult to produce and store due to its volatile nature.
Yes it is. This does not mean that it has the properties ascribed to it in any particular work of fiction (Star Trek's version is reasonably realistic, Green Lantern's version is hopelessly silly), but yes, something by that name does really exist. ************************************************************************* Antimatter is real. Some scientists believe that antimatter is a perfect symmetry to matter. Antimatter is very dangerous and powerful. When matter and antimatter collide, an annihilation happens. Things around it will disappear.
They annihilate each other, releasing a relatively large quantity of energy, which can be calculated using the formula e=mc2, where e is the released energy in joules, m is the mass of the particles in kilograms, and c is the speed of light in metres per second
Within a black hole, the distinctions between regular matter and antimatter disappear.
I don't know, but the Void and Black Hole tools are similar to antimatter.
No, Antimatter while annihilate our matter, meaning that it will completely convert our matter to light and heat, however antimatter is highly theoretical, and the LHC probably will not create any.
In some cases, lizards and black scorpions may have a commensal relationship where the scorpion provides shelter for the lizard, and the lizard benefits from protection against predators and potential prey. However, this relationship can vary depending on the specific species and environmental conditions.
Just the same as if normal matter falls in. The matter or antimatter will stay there, increasing the mass of the black hole (and making it more "hungry", i.e., making its gravity stronger).
This is a black hole formed from antimatter, instead of matter. The only real difference thereby being that the matter within the black hole would have an opposite charge from normal matter. Other than that, an antimatter black hole, while still theoretical at this point, should have properties the same as a black hole formed from 'normal' matter. As with a normal black hole, an antimatter black hole would be created by having enough antimatter to cause a gravitational collapse.
No. It's still regular matter, only enormously compressed.
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No, a black hole is not made of antimatter. A black hole is formed when a massive star collapses under its own gravity to a point of infinite density, known as a singularity. Antimatter is composed of particles with properties opposite to those of normal matter, such as having opposite electric charge.
The relationship between the mass of a black hole and its density is that as the mass of a black hole increases, its density also increases. This means that a black hole with a higher mass will have a higher density compared to a black hole with a lower mass.
if they are black all the sterotypes are true
Mutualism. Mutualism.