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Nuclear fission
Nuclear decay is the process in which atomic nuclei of unstable isotopes release fast-moving particles, such as alpha or beta particles, along with energy in the form of gamma radiation. This process is also known as radioactive decay and results in the transformation of the unstable isotope into a more stable one.
It is the process of Radioactivity.
Radioactive decay occurs when unstable atomic nuclei lose energy to become more stable. This process can involve emitting particles (such as alpha or beta particles) or electromagnetic radiation (such as gamma rays).
The process is called radioactive decay, in which unstable isotopes undergo spontaneous disintegration to form more stable elements. During this process, fast-moving particles such as alpha and beta particles are emitted, along with energy in the form of gamma rays.
Radioactivity is the term defined as the emission of energy from subatomic particles, such as alpha particles, beta particles, and gamma rays. These emissions occur from the spontaneous decay of unstable atomic nuclei.
The process of a radioactive decay is atomic nucleus of an unstable atom loses energy by emitting ionizing particles
A radioactive piece of metal has nuclear energy. This energy is released as the unstable atomic nuclei decay and emit radiation in the form of alpha particles, beta particles, or gamma rays.
Unstable nuclei emit radiation in the form of particles or electromagnetic waves to achieve a more stable atomic configuration. This process can involve the emission of alpha particles, beta particles, or gamma rays. By releasing this energy, the nucleus reduces its energy state and often transforms into a different element or isotope, leading to increased stability. This phenomenon is known as radioactive decay.
When an atomic nucleus fissions, it splits into smaller atomic nuclei. These smaller atomic nuclei are referred to as "fission fragments." The unstable nucleus of a radioactive element can fission (split) into smaller nuclei, i.e. those of lighter elements. This can also release other atomic particles, as well as energy. In nuclear power and atomic weapons, the fission process is initiated to release the nuclear energy. Natural fission is a much rarer occurrence than radioactive decay.
No, gamma radiation is made of photons, which are non-charged particles with no mass. They have high energy and are produced from the decay of unstable atomic nuclei or during nuclear reactions.
An unstable isotope with extra energy in the nucleus is a radioactive isotope. This extra energy causes the nucleus to undergo radioactive decay, emitting particles or gamma rays in order to become more stable. This process can involve the release of alpha particles, beta particles, or gamma radiation.