'Electron Capture' Searchterm 'Electron Capture' found in 1 term [ • ] and 2 definitions [• ], (+ 3 Boolean[• ] resultsResult Pages : • Electron Capture
(K-capture) An unstable atom with too many protons in the nucleus, and not enough energy to emit a positron, reaches a stable state in the way, that one proton captured an electron from the atom's inner shell (K-shell) and change to a neutron. A neutrino is emitted from the atoms nucleus by this process. The atomic mass of the atom is unchanged, but the decreased number of protons transformed the atom to a different element.
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There are two kinds of beta decay: beta minus and beta plus decay. The differentiation depends on the charge of the emitted particle. At the beta plus decay in the nucleus a proton changes to a neutron and emits a positron and a neutrino. The atom is after the decay a different element, but with the same number of particles in the nucleus. At the beta minus decay in the nucleus a neutron changes to a proton and emits an electron and an antineutrino. As with the beta plus decay the atom changes to a different element but with the same number of particles in the nucleus. Sometimes the electron capture is mentioned as a third kind of beta decay. Beta decay is used for example in positron-electron tomography or in iodine-131 therapy. See also Electron Capture. •
Radioactive decay is the change of instable atoms to a more stable state. This change to a different nuclide by the spontaneous emission of radiation such as alpha or beta particles, gamma rays, or by electron capture follows an element-specific decay chain. Each step in the decay chain has a definite half-life. Sometimes also the reduction of excitation energy of the nucleus by e.g. internal conversion is mentioned as radioactive decay. See also Decay Chain, Radioisotope. • A mammogram is a low dose x-ray of the breast used to detect and diagnose breast disease, or to provide a baseline reference for later comparison. Multiple images are obtained by different positioning of the breast. The breast compression during mammography is an essential component to produce an optimal diagnostic mammogram. Film mammography units use film to both capture and display the image; digital mammography units use electronic equipment. A spot compression reduces the thickness of the area of interest and improves contrast and separation of breast tissues. Further Reading: News & More:
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A neutron (see also baryon) is a fundamental component of a nucleus. Neutrons, discovered by James Chadwick in 1935 (Nobel Prize in physics), have no charge and are about 1838 times more massive than electrons.
See also Neutron Activation, Neutron Activation Analysis, Neutron Radiation and Neutron Capture. Further Reading: News & More:
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