beta decay equation example
An example of a beta decay equation is:
^14C -> ^14N + e^- + γ
Sure! Here is an example of a beta decay equation:
Carbon-14 (14C) undergoes beta decay, turning into Nitrogen-14 (14N):
14C -> 14N + e- + anti-neutrino
In this equation, the carbon-14 nucleus emits a beta particle (an electron) and an anti-neutrino. The atomic number increases by one, converting carbon into nitrogen. The mass number, which represents the total number of protons and neutrons, remains the same at 14.
Sure! Beta decay is a type of radioactive decay in which a beta particle (either an electron or a positron) is emitted from the nucleus of an atom. The beta decay equation represents the reaction in which a parent nucleus decays into a daughter nucleus through the emission of a beta particle.
Here is an example of a beta decay equation:
^238U --> ^234Th + e^-(beta particle)
In this example, the parent nucleus is uranium-238 (^238U) and it decays into thorium-234 (^234Th) by emitting a beta particle (e^-), which is an electron. The arrow in the equation represents the decay process.
It's important to note that the conservation laws of energy, charge, and lepton number must be obeyed in the beta decay process. The total number of protons and neutrons, as well as the total atomic mass, must also be conserved.
To find specific examples of beta decay equations for different nuclei, you can consult a nuclear physics textbook or search for online databases that provide information on radioactive isotopes and their decay modes. These resources typically list the parent and daughter nuclei involved, as well as the type of beta decay (beta-minus or beta-plus).