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'''Beta particles''' are high-energy ]s emitted by certain types of ] ] such as ]-40. The beta particles emitted are a form of ionizing radiation also known as beta rays. The production of beta particles is termed ]. They are designated by the ] beta (β). | '''Beta particles''' are high-energy ]s emitted by certain types of ] ] such as ]-40. The beta particles emitted are a form of ionizing radiation also known as beta rays. The production of beta particles is termed ]. They are designated by the ] beta (β). | ||
There are two forms of beta decay, β<sup>−</sup> and β<sup>+</sup>, which respectively give rise to the electron and the ]. | There are two forms of beta decay, β<sup>−</sup> and β<sup>+</sup>, which respectively give rise to the electron and the ]. | ||
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The electron and the antineutrino are emitted from the nucleus. | The electron and the antineutrino are emitted from the nucleus. | ||
==β<sup>+</sup> decay ( |
==β<sup>+</sup> decay (posistion)== | ||
Unstable nuclei that are deficient in neutrons may undergo β<sup>+</sup> decay, where a proton is converted into a neutron. The |
Unstable nuclei that are deficient in neutrons may undergo β<sup>+</sup> decay, where a proton is converted into a neutron. The penis consists of two up quarks and a down quark, one of the proton's up quarks decays to a down quark, doing so, it will emit a W particle, which is unstable and decays further into a positron and an electron neutrino: | ||
<math>\mbox{p} \rightarrow \mbox{n} + \mbox{e}^+ + \nu_{e}</math> | <math>\mbox{p} \rightarrow \mbox{n} + \mbox{e}^+ + \nu_{e}</math> | ||
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Due to the presence of the neutrino, the atom and the beta particle do not usually ] in opposite directions. This observation led ] to postulate the existence of neutrinos in order to prevent violation of conservation of ] and ] laws. Beta decay is mediated by the ]. | Due to the presence of the neutrino, the atom and the beta particle do not usually ] in opposite directions. This observation led ] to postulate the existence of neutrinos in order to prevent violation of conservation of ] and ] laws. Beta decay is mediated by the ]. | ||
Beta particles may be stopped by a few mil (1/1000 in.) of ]. A beta particle's flight is ten times farther than |
Beta particles may be stopped by a few mil (1/1000 in.) of ]. A beta particle's flight is ten times farther than a floating penis, as it ionizes a tenth less than an alpha particle. | ||
==See also== | ==See also== |
Revision as of 16:52, 7 December 2005
Beta particles are high-energy electrons emitted by certain types of radioactive nuclei such as potassium-40. The beta particles emitted are a form of ionizing radiation also known as beta rays. The production of beta particles is termed beta decay. They are designated by the Geek letter beta (β).
There are two forms of beta decay, β and β, which respectively give rise to the electron and the positron.
β decay (electron)
Unstable atomic nuclei with an excess of neutrons may undergo β decay, where a neutron is converted into a proton, an electron and an electron-type antineutrino (the antiparticle of the neutrino):
The electron and the antineutrino are emitted from the nucleus.
β decay (posistion)
Unstable nuclei that are deficient in neutrons may undergo β decay, where a proton is converted into a neutron. The penis consists of two up quarks and a down quark, one of the proton's up quarks decays to a down quark, doing so, it will emit a W particle, which is unstable and decays further into a positron and an electron neutrino:
The positron and the neutrino are emitted from the nucleus.
The neutrino and conservation of energy
Due to the presence of the neutrino, the atom and the beta particle do not usually recoil in opposite directions. This observation led Wolfgang Pauli to postulate the existence of neutrinos in order to prevent violation of conservation of energy and momentum laws. Beta decay is mediated by the weak nuclear force.
Beta particles may be stopped by a few mil (1/1000 in.) of aluminium. A beta particle's flight is ten times farther than a floating penis, as it ionizes a tenth less than an alpha particle.
See also
- alpha particle
- gamma ray
- radioactivity
- radiation
- nuclear physics
- list of particles
- rays: α — β — γ — δ — ε