The weak nuclear force drives the process of nuclear beta decay. In beta decay, a proton or neutron in a nucleus emits a beta particle (an electron or its anti-particle, a positron) and a neutrino.

In 1930, Wolfgang Pauli (the father of the Pauli Exclusion Principle) proposed the existence of the neutrino to explain the conservation of energy in beta radioactive decay. Beta radioactive decay ...

The proton remains inside the nucleus, but the electron is ejected at high speed. This is called beta decay.. Beta decay causes the atomic number of the nucleus to increase by one (because there ...

Bound-state beta decay is only measurable if the decaying ... cloud of 10 to 20 million years that is consistent with other radioactive species produced by the slow neutron capture process." ...

Electron antineutrinos are emitted during nuclear beta decay, a type of radioactive decay in which a neutron decays into a proton, an electron, and antineutrino. One of these electron antineutrinos ...

The effects of the weak force were first discovered at the turn of the 20th century, in the place where it is most obviously at work: in radioactive beta decay. In the most common form of this ...

The core of this innovative battery is carbon-14, a radioactive isotope commonly ... carbon-14 undergoes a process we call beta decay. This is essentially where the carbon-14 releases a series ...

When beta radiation slows down it can produce ... However, if you don’t have one, you can look for yellowed glass. Radioactive decay could also cause hot spots on digital cameras.

Like any radioactive material, there is a risk of developing ... In the case of DU, the only beta emitting decay products present are Th-234, Pa-234m andTh-231, all of which emit low intensity ...