with or without the help of catalist?s are transformed into |
with or without the help of catalysts are transformed into |
angular momemtum difference when a neutron decays into a proton and an electron. Neutrinos were later proven to exist, which was difficult considering they have negligible rest mass (which means that their [gravitational interaction]] is very small), travel very close to the speed of light, and have no charge (this means that they do interact with ordinary matter though electromagnetic interaction either). They also don't interact through [strong nuclear interaction]?, but only through [weak nuclear interaction]?. Large water tanks with arrays of photocell?s are usually used to detect neutrinos. |
angular momentum difference when a neutron decays into a proton and an electron. Neutrinos were later proven to exist, which was difficult considering they have negligible rest mass (which means that their gravitational interaction is indetectably small), travel very close to the speed of light, and have no charge (this means that they do not interact through electromagnetic interaction, which is the only way to currently directly detect particles as small as neutrinos). They also don't interact through [strong nuclear interaction]?. Fortunately, neutrinos do influence other matter through [weak nuclear interaction]?. Large heavy water (water that has deuterium instead of hydrogen) tanks with arrays of photocell?s are usually used to detect neutrinos. |
External link: *[Solar neutrino data] |