An antineutron is an antiparticle corresponding to a neutron.
The electric charge of an antineutron is zero, as it is an antiparticle of a neutron which has no electric charge.
During neutron-antineutron annihilation, a neutron and an antineutron collide and are converted into energy in the form of gamma rays, mesons, and other particles. This process releases a large amount of energy and results in the destruction of the neutron and antineutron.
The opposite of a neutron is the antineutron.
Examples: proton, muon, boson Higgs, positron, antineutron, tau neutrino etc.
Neutrons do not have any electric charge at all but are neutral - hence the name. Even the neutron's antimatter menifestation, the antineutron, is neutral.
An antineutron is an antiparticle corresponding to a neutron.
The electric charge of an antineutron is zero, as it is an antiparticle of a neutron which has no electric charge.
During neutron-antineutron annihilation, a neutron and an antineutron collide and are converted into energy in the form of gamma rays, mesons, and other particles. This process releases a large amount of energy and results in the destruction of the neutron and antineutron.
The opposite of a neutron is the antineutron.
The opposite of a neutron is the antineutron.
An antideuteron is the antiparticle of the nucleus of deuterium, consisting of an antiproton and an antineutron.
Positron, antineutron, antiproton
An antihypertriton is the antiparticle equivalent of a hypertriton, consisting of an antiproton, an antineutron, and an antihyperon.
You probable think to antiparticles as antiproton, antineutron, positron.
Examples are: neutron, antineutron, 3 neutrino and 3 antineutrino.
Examples: proton, muon, boson Higgs, positron, antineutron, tau neutrino etc.
Examples: proton, muon, boson Higgs, positron, antineutron, tau neutrino etc.