It is the process of Radioactivity.
Exhibiting or caused by radioactivity.Radioactivity: the spontaneous emission of a stream of particles or electromagnetic rays in nuclear decay.Examples are radioactive isotopes [an unstable nucleus that undergoes radioactive decay], radioactive dating [the process by which the approximate age of an object is determined based on the amount of certain radioactive nuclides present], and radioactive decay [the spontaneous disintegration of a nucleus into a slightly lighter and more stable nucleus, accompanied by emission of particles, electromagnetic radiation, or both.]
The larger nuclei are unstable and undergo the disintegration process to gain the stability they emit particles as the radio active rays. the largest stable nucleus is for 82Pb (Lead) so nuclei having atomic numbers higher than 82 are Radioactive.
Ionization creates charged particles that can harm living tissues.
electrons do, but they don't always equal the charge of the positive protons in the nucleus. sometimes the negative charge is lesser or greater, and that creates an unstable particle which immediately sheds the electrons or protons creating the unbalance as soon as the unbalance occurs. Chain reactions of this process create a type of nuclear reaction.
There are many radio active elements which decay into lighter elements and give off charged particles in the process. The best place to find this voluminous information is in a 'Table of the Nuclides'.
Radio Activity- The process in which an unstable atomic nucleus emits charged particles and energy Artificial Transmutations- The conversion of atoms of one element to atoms of another.
The process of a radioactive decay is atomic nucleus of an unstable atom loses energy by emitting ionizing particles
Radioactive elements have unstable nucleii. When an unstable nucleus decays it emits energy in the form of electromagnetic waves and heavy particles and in the process forms new nucleii.
The process by which the nucleus of an unstable atom loses energy by emitting radiation, including alpha particles, beta particles, gamma rays, and conversion electrons.
In the process of radioactive decay an unstable atomic nucleus emits energy to get closer to a state of stability. Whether this energy is emitted in particles, electromagnetic radiation, or both depends on which decay paths are available to the nucleus and which decay paths are forbidden to the nucleus by Quantum Mechanics.Some of the decay processes are:alpha - energy is released in the momentum of the ejected alpha particle (helium nucleus)beta - energy is released in the momentum of the ejected electron or positron (and the hard to detect neutrino)gamma - energy is released as electromagnetic radiation (gamma ray photon)spontaneous fission - energy is released in the momentum of the ejected fission product atoms and the ejected neutrons
A stable nucleus is one which will not decay, whereas an unstable nucleus will decay at some point, which cannot be predicted as decay is a random process, by alpha or beta decay.
Exhibiting or caused by radioactivity.Radioactivity: the spontaneous emission of a stream of particles or electromagnetic rays in nuclear decay.Examples are radioactive isotopes [an unstable nucleus that undergoes radioactive decay], radioactive dating [the process by which the approximate age of an object is determined based on the amount of certain radioactive nuclides present], and radioactive decay [the spontaneous disintegration of a nucleus into a slightly lighter and more stable nucleus, accompanied by emission of particles, electromagnetic radiation, or both.]
The larger nuclei are unstable and undergo the disintegration process to gain the stability they emit particles as the radio active rays. the largest stable nucleus is for 82Pb (Lead) so nuclei having atomic numbers higher than 82 are Radioactive.
radiation
forming very strong bonds
Ionization creates charged particles that can harm living tissues.
Radioactivity