because it is in band of stability
81Br is one of the stable isotopes of bromine.
A stable nucleon is a particle found in the nucleus of an atom, either a proton or a neutron, that is not subject to radioactive decay. These particles are essential for the stability of the nucleus and play a crucial role in determining the properties of the atom.
Radioactive decay involves the transformation of unstable atomic nuclei into more stable forms, resulting in the emission of radiation in the form of particles (such as alpha or beta particles) or electromagnetic waves (like gamma rays). During this process, the original element, known as the parent nuclide, decays into one or more daughter nuclides, which may themselves be radioactive. The decay occurs at a characteristic rate, described by the half-life, which is the time required for half of a given amount of the parent nuclide to decay. Overall, radioactive decay leads to a change in the composition and energy state of the nucleus, resulting in new chemical elements or isotopes.
The daughter isotope is the result of the radioactive disintegration of the parent isotope. For example radium is a product of the uranium disintegration.The two isotopes have different chemical (different atomic numbers, etc.), physical and nuclear properties.
The nuclide Sn can undergo beta-minus decay, beta-plus decay, electron capture, or alpha decay, depending on its specific isotope. Each decay type involves the transformation of the nucleus to a more stable state by emitting different particles or radiation.
This is a stable isotope of sulfur: 1616S.
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.
81Br is one of the stable isotopes of bromine.
A stable nucleon is a particle found in the nucleus of an atom, either a proton or a neutron, that is not subject to radioactive decay. These particles are essential for the stability of the nucleus and play a crucial role in determining the properties of the atom.
81Br is one of the stable isotopes of bromine.
Elements that emit atomic particles are typically referred to as radioactive elements. These elements undergo radioactive decay and emit particles such as alpha particles, beta particles, or gamma rays as they try to become more stable.
An activation analysis is any of several techniques in which a subatomic particle or gamma ray is capture by a nuclide to form a second stable nuclide which is then measured.
An activation analysis is any of several techniques in which a subatomic particle or gamma ray is capture by a nuclide to form a second stable nuclide which is then measured.
1H, 2D, 102Ru, 103Rh, 106Pd and many others.
Radioactive decay involves the transformation of unstable atomic nuclei into more stable forms, resulting in the emission of radiation in the form of particles (such as alpha or beta particles) or electromagnetic waves (like gamma rays). During this process, the original element, known as the parent nuclide, decays into one or more daughter nuclides, which may themselves be radioactive. The decay occurs at a characteristic rate, described by the half-life, which is the time required for half of a given amount of the parent nuclide to decay. Overall, radioactive decay leads to a change in the composition and energy state of the nucleus, resulting in new chemical elements or isotopes.
The daughter isotope is the result of the radioactive disintegration of the parent isotope. For example radium is a product of the uranium disintegration.The two isotopes have different chemical (different atomic numbers, etc.), physical and nuclear properties.
Decay Series