/fawl"owt'/, n.1. the settling to the ground of airborne particles ejected into the atmosphere from the earth by explosions, eruptions, forest fires, etc., esp. such settling from nuclear explosions (radioactive fallout). Cf. rainout.2. the particles themselves. Cf. rainout.3. an unexpected or incidental effect, outcome, or product: the psychological fallout of being obese.4. effects; results: emotional fallout from a divorce.Also, fall-out.[1945-50; n. use of v. phrase fall out]
* * *Descent of radioactive materials from the atmosphere to the earth.Radioactivity in the atmosphere may arise from natural causes such as cosmic rays as well as from nuclear explosions and atomic reactor operations. The explosion of nuclear weapons leads to three types of fallout: local, tropospheric, and stratospheric. The first, intense but relatively short-lived, occurs as larger radioactive particles are deposited near the site of the explosion. Tropospheric fallout occurs when the finer particles enter the troposphere, and it spreads over a larger area in the month after the explosion. Stratospheric fallout, made of fine particles in the stratosphere, may continue years after the explosion, and the distribution is nearly worldwide. Many different radioisotopes are formed during a nuclear explosion, but only long-lived isotopes (e.g., cesium-137, strontium-90) are deposited as stratospheric fallout.
* * *deposition of radioactive materials on the Earth from the atmosphere. The terms rain out and snow out are sometimes used to specify such deposition during precipitant weather.Radioactivity in the atmosphere may arise from (1) natural causes, (2) nuclear (nuclear weapon) or thermonuclear bomb explosions, and (3) induced radioactivities and fission products from atomic reactor operations.Most of the natural radioactivity in the atmosphere is a result of cosmic rays and the gaseous diffusion of radon from natural uranium and thorium found in the Earth's crust. The local concentrations of these gases in the atmosphere depend to a great extent on the distribution of uranium and thorium in the Earth, as well as on meteorological conditions. Cosmic rays produce, among other isotopes, radioactive forms of carbon and hydrogen.The explosion of nuclear bombs that release radioactivity leads to three separate types of fallout: local, tropospheric, and stratospheric. The local fallout is due to the deposition of the larger radioactive particles near the site of the explosion. This fallout is quite intense but relatively short-lived. Tropospheric fallout occurs when the finer particles enter the troposphere (the lower part of the Earth's atmosphere) and are deposited at a later time and over a larger area, depending on the local meteorological conditions. In general, tropospheric fallout occurs in the month following the explosion and takes place in the general latitude of the explosion site. Stratospheric fallout, made up of extremely fine particles in the stratosphere (above the troposphere), may continue years after the explosion, and the distribution is nearly worldwide. Generally only large nuclear weapons produce significant stratospheric fallout.Many different radioisotopes are formed during a nuclear explosion, but only the long-lived isotopes are deposited as stratospheric fallout. Examples are cesium-137 and strontium-90, which have 27- and 28-year half-lives. The latter presents the greater hazard to animal life since it is chemically similar to calcium and may replace the calcium in certain foods and ultimately become concentrated in the body. The radioactive material in the stratosphere eventually mixes with the troposphere, where it then deposits out onto the Earth through electrical attraction or gravity or by attachment to larger particles such as water droplets.
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