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What happens when a particle and its antiparticle collide?
When a particle and its antiparticle collide, they annihilate each other and release energy in the form of photons or other particles.
What is an annihilation reaction?
Annihilation reaction is when you take matter and anti-matter and try to put them together and they cancel each other out. Try putting an electron and a positron together. What happens? They will cancel each other out.
What happens when anti-matter is created?
When antimatter is created, it immediately seeks to annihilate with normal matter through a process called particle-antiparticle annihilation, releasing a large amount of energy in the form of gamma rays. This interaction results in the conversion of both particles into pure energy following Einstein's famous equation, E=mc^2.
What happens during a matter-antimatter reaction?
During a matter-antimatter reaction, particles of matter and antimatter collide and annihilate each other, releasing a large amount of energy in the form of gamma rays and other particles.
What happens if you touch antimatter?
If you were to touch antimatter, it would result in a violent and explosive reaction, releasing a large amount of energy. This is because when antimatter comes into contact with regular matter, they annihilate each other, converting their mass into energy.
What happens when a particle and its antiparticle collide?
When a particle and its antiparticle collide, they annihilate each other and release energy in the form of photons or other particles.
What is an annihilation reaction?
Annihilation reaction is when you take matter and anti-matter and try to put them together and they cancel each other out. Try putting an electron and a positron together. What happens? They will cancel each other out.
What happens when anti-matter is created?
When antimatter is created, it immediately seeks to annihilate with normal matter through a process called particle-antiparticle annihilation, releasing a large amount of energy in the form of gamma rays. This interaction results in the conversion of both particles into pure energy following Einstein's famous equation, E=mc^2.
What happens during a matter-antimatter reaction?
During a matter-antimatter reaction, particles of matter and antimatter collide and annihilate each other, releasing a large amount of energy in the form of gamma rays and other particles.
What happens if you touch antimatter?
If you were to touch antimatter, it would result in a violent and explosive reaction, releasing a large amount of energy. This is because when antimatter comes into contact with regular matter, they annihilate each other, converting their mass into energy.
When matter created gravity as antimatter why not create anti-gravity?
"Antimatter" is not negative mass. Mass is a positive quantity for both matter and antimatter. So gravity is always attractive, even if one of the masses in the relationship happens to be antimatter. If such a thing as negative mass exists, then the forces between it and a lump of normal mass would be repulsive ones. Antimatter is observed routinely, but no evidence of negative mass has ever been observed. When matter & antimatter annihilate energy is released per E = mc2 where m corresponds to the sum of their masses. If the antimatter had negative mass then instead of a positron/electron annihilation releasing energy corresponding to twice the electron mass (as it does) the mass of the electron and negative mass of the positron would cancel resulting in no energy release (this does not happen). This proves that both matter & antimatter have positive mass, without even referring to gravity. As they both have positive mass their gravity will be attractive not repulsive.
What happens if antimatter touches matter?
When antimatter touches matter, they annihilate each other, releasing a large amount of energy in the form of gamma rays. This process is called annihilation.
What happens when matter and antimatter collide?
When matter and antimatter collide, they annihilate each other, releasing a large amount of energy in the form of gamma rays and other particles. This process is called annihilation.
What happens when a particle an its corresponding particle of antimatter meet?
If a quark and anti-quark collide, they could scatter. But it is also possible (with increasing probability at lower energies) that they undergo what is called mutual annihilation. In mutual annihilation, both particles are converted entirely into energy. Quarks, it should be noted, cannot exist by themselves. It should also be noted that there are some particles created by quark-antiquark pairs. These particles, like the J/psi meson, are short-lived, but do exist. Investigators are still working on a better understanding of quarks and the relationship between the strong, weak and electromagnetic interactions.
How do you artificially create antimatter?
when energy travelling at the speed of light (its possible to reach that speed with a single particle) comes in contact with something, it can reach up to extreme temperatures and the energy can be converted into matter. when this happens, both matter and anti matter is born.. pairs so matter got created by energy smashing into stuff, like other energy or matter, basicly, there is the same amount of matter and antimatter because they are created in pairs.
What happens if antimatter gets sucked into a black hole?
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).
What happens to the particle in a substance when it is cooled?
i. dont.know
