The stability of a nuclide depends on the balance between the strong nuclear force that holds the nucleus together and the electrostatic repulsion between positively charged protons. Nuclides with too many or too few neutrons compared to protons may be unstable and undergo radioactive decay to achieve a more stable configuration.
True. The offspring nuclide is the resulting nucleus that is produced as part of the radioactive decay process.
It depends on the shape of the object and how its mass is distrubuted
Isomeric transition and internal conversion are examples of radioactive decay processes that do not reduce the atomic number of a nuclide. These processes involve the reorganization of the nucleus rather than changing the number of protons in the atom.
The adjective for stability is "stable."
The adjective form of stability is stable.
The daughter nuclide is the new isotope formed from the radioactive decay of a parent nuclide.
A configuration composed of Photons & Neutrons is called Nuclide's. There are 3000 nuclide's approximately all together (270 nuclide's are naturally forms)
The stability of the ankle, or talocrural joint, largely depends on the ligaments that hold it together.
The decay of thorium by alpha decay the resultant nuclide is the element radium. The specific nuclide of radium cannot be determined unless we know which specific nuclide of thorium underwent alpha decay.
Nuclide writing is a notation system used to represent a specific nuclide of an element. It includes the chemical symbol, atomic number, and mass number of the nuclide. This notation is helpful for identifying different isotopes of an element.
S-32 is a stable nuclide because it has a balanced number of protons and neutrons, which leads to a stable nuclear configuration. The nucleus of S-32 is not prone to spontaneous decay or fragments due to the strong nuclear force between its constituent protons and neutrons.
An unstable nuclide will stop emitting radiation when it decays into a stable daughter nuclide. This decay process continues until a stable configuration is reached, which may take seconds to billions of years depending on the nuclide.
The mass number of a nuclide is found by adding together the number of protons and neutrons in the nucleus of the atom. It is represented by the symbol A in the nuclide symbol.
81Br is one of the stable isotopes of bromine.
The correct nuclide symbol for bromine-81 is ^(81)Br.
The correct nuclide symbol for bromine-81 is 81Br.
yes and no it depends on the situation.