uranium-238


Also found in: Thesaurus, Acronyms, Wikipedia.

uranium-238

n.
The most common isotope of uranium, having mass number 238 and half-life 4.47 × 109 years, nonfissionable but may be irradiated with neutrons to produce fissionable plutonium-239.
References in periodicals archive ?
Enrichment level for a bomb is 90 percent--meaning the ratio of uranium-238 to uranium-235 has switched from 993:7 to 1:7.
At room temperature, UF6 has a high vapour pressure, making it useful in the gaseous diffusion process to separate the rare uranium-235 from the common uranium-238 isotope.
But more than 95 percent of the material is simply harmless unused uranium-238. Many alternative nuclear proponents are focused on replacing today's supposedly inefficient "burner" designs with true "breeder" reactors, which create as much or more fissile fuel than they consume.
The reactor will be blanketed by a fission shell stuffed with uranium-238.
At the higher temperature, the more plentiful uranium-238 nuclei absorb more neutrons (due to an effect called Doppler broadening) and the reactor output decreases, lowering the reactor temperature until an equilibrium is reached.
Radon ([sup.222]Rn) being a daughter product of Uranium-238 series further decays to [sup.218]Po (RaA, 3.05 min), [sup.214]Pb (RaB, 26.8 min), [.sup.214]Bi (RaC, 19.7 min), [sup.210]Pb (RaD, 22.3 years) etc.
Most nuclear reactors today are light water reactors (LWR), cooled by water and fueled by uranium-238, or U-238 (the most common naturally occurring uranium isotope) and 4% to 5% U-235.
The half-life period of uranium-238 isotope is 4.47 billion years and Uranium-235 isotope is 704 years, making them useful in dating the age of the Earth.
Even if HEU has not been through a reactor, such as if it has been produced by centrifuge from natural uranium, it will have some uranium-238, which has a gamma ray of 1.001 MeV.
The odourless and tasteless gas is generated by decay of uranium-238 (a natural radioactive element present in all rocks and soil in varying degrees).
In either the generation of electricity or the creation of a nuclear weapon, natural uranium ore must be refined and enriched to increase the number of fissile (and rare) uranium-235 isotopes, or plutonium must be created by bombarding common uranium-238 isotopes with neutrons and then separating that plutonium from fission waste products.
Uranium-238 does indeed have a half-life of 4,500 million years.