You need to specify not just the element, but the specific isotope. Like most elements, selenium comes in several varieties, which in this case are called isotopes.
3475Se --> 3375As + 10e
The product.
The intermediate product is neptunium 237 ( a very long-lived radioisotope).
An alpha particle
Product of radioactive decay 42He is an alpha particle
The nuclear decay equation for the decay of selenium-75 (75Se) by beta decay is: ( ^{75}{34}Se \rightarrow ^{75}{35}Br + e^- + \overline{\nu_e} ) This equation represents the transformation of a selenium-75 nucleus into a bromine-75 nucleus, an electron, and an electron antineutrino.
3475Se --> 3375As + 10e
Selenium is generally considered stable in its elemental form. However, some of its isotopes are unstable and undergo radioactive decay.
A gamma wave...
Since an alpha particle is simply two protons and two neutrons bound together, or He2+, the alpha decay of selenium-78 is easily determined. Selenium-78 has 34 protons and 44 neutrons. Subtract 2 from each of these due to the loss of the alpha particle and you have 32 protons and 42 neutrons. This new atom is germanium-74.
The product.
The decay product ratio is the ratio of the amount of a specific decay product to the amount of the parent isotope in a radioactive decay chain. It is used to determine the relative contribution of different decay pathways in the decay of a radioactive substance.
The intermediate product is neptunium 237 ( a very long-lived radioisotope).
It is thorium 234.
No. Decay is the process, radiation is the product.
The daughter product in the beta decay of 144Ce is 144Pr, which stands for promethium. Promethium is a radioactive element that forms as a result of the beta decay of cerium-144.
The product of beta decay of bismuth-209 is thallium-209. During beta decay, a neutron in the bismuth nucleus is converted into a proton, resulting in the emission of a beta particle (electron) and an antineutrino.