No
Cobalt-60 decay to nickel-60:Co-60------------Ni-60 + 1 electron + 1 neutrino + gamma rays
Gamma decay produces energy in the form of gamma rays, which are high-energy electromagnetic radiation, instead of particles. Gamma decay occurs when an unstable atomic nucleus transitions to a lower energy state by releasing gamma rays.
No, gamma decay does not change the atomic number of an atom. Gamma decay involves the release of high-energy electromagnetic radiation (gamma rays) from the nucleus of an atom, but it does not affect the number of protons in the nucleus, which determines the atomic number.
Gamma decay involves the emission of a gamma ray, which is a high-energy photon with no charge and no mass.
Dental Caries is the scientific name for 'tooth decay.'
transmutation of elements... the thing alchemists sought to do
In nuclear science, transmutation is where one chemical element or isotope is converted into another. It occurs when materials decay, or it can be caused by nuclear reaction.
Cobalt-60 decay to nickel-60:Co-60------------Ni-60 + 1 electron + 1 neutrino + gamma rays
Gamma decay occurs when an excited nucleus releases energy in the form of a gamma ray photon in order to reach a more stable energy state. This type of decay often follows alpha or beta decay processes, as the nucleus transitions to lower energy levels. Gamma decay allows the nucleus to shed excess energy without changing its atomic number or mass.
Transmutation does not occur in nuclear fission, where atomic nuclei are split into smaller fragments. Transmutation involves changing the identity of an atomic nucleus by altering the number of protons and neutrons it contains, which occurs in nuclear fusion reactions and radioactive decay processes.
Gamma decay produces energy in the form of gamma rays, which are high-energy electromagnetic radiation, instead of particles. Gamma decay occurs when an unstable atomic nucleus transitions to a lower energy state by releasing gamma rays.
No, gamma decay does not change the atomic number of an atom. Gamma decay involves the release of high-energy electromagnetic radiation (gamma rays) from the nucleus of an atom, but it does not affect the number of protons in the nucleus, which determines the atomic number.
Gamma decay involves the emission of a gamma ray, which is a high-energy photon with no charge and no mass.
This process is known as gamma decay, which involves the emission of a gamma ray photon. Gamma rays are a form of electromagnetic radiation that carries energy but does not change the mass or nuclear charge of the atom. Gamma decay is typically associated with nuclear reactions and can occur after alpha or beta decay to stabilize the nucleus.
It can't, as far as I know. "Gamma decay" doesn't refer to the decay of gamma rays; rather, it refers to a decay of ATOMS, or some other particles, which produces gamma rays in the process.
transmutation, neutrons
Dental Caries is the scientific name for 'tooth decay.'