uranium - translation to γαλλικά
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uranium - translation to γαλλικά

RADIOACTIVE, METALLIC ELEMENT WITH THE ATOMIC NUMBER 92
Element 92; Uranium Processing; Uranic; Uranium metal; Uranium supply; History of uranium; Uranium pentaiodide; U(IV); U(VI); Uranium poisoning; Uranium(V) iodide; U (element)
  • alt=Shiny metallic cylinder with a sharpened tip. The overall length is 9 cm and diameter about 2 cm.
  • alt=White fragmentred mushroom-like smoke cloud evolving from the ground.
  • alt=Two fuzzy black features on a fuzzy white paper-like background. There is a handwriting at the top of the picture.
  • The evolution of Earth's [[radiogenic heat]] flow over time: contribution from <sup>235</sup>U in red and from <sup>238</sup>U in green
  • alt=An industrial room with four large illuminated light bulbs hanging down from a bar.
  • alt=A photo of a large hall filled with arrays of long white standing cylinders.
  • title=NUEXCO Exchange Value (Monthly Uranium Spot)}}</ref>
  • alt=Photograph featuring sunflowers in front and a plant on the back. The plant has a wide cooling tower with diameter comparable to its height with a cloud of water vapor rising from the top.
  • alt=A diagram showing a chain transformation of uranium-235 to uranium-236 to barium-141 and krypton-92
  • alt=A shiny gray 5-centimeter piece of matter with a rough surface.
  • alt=A graph showing evolution of number of nuclear weapons in the US and USSR and in the period 1945–2005. US dominates early and USSR later years with and crossover around 1978.
  • Uranium in its oxidation states III, IV, V, VI
  • alt=A glass place on a glass stand. The plate is glowing green while the stand is colorless.
  • Cubes and cuboids of uranium produced during the Manhattan project
  • UV light]].
  • alt=A graph of potential vs. pH showing stability regions of various uranium compounds
  • alt=A graph of potential vs. pH showing stability regions of various uranium compounds
  • alt=Snow-like substance in a sealed glass ampoule.
  • alt=A graph of potential vs. pH showing stability regions of various uranium compounds
  • alt=A graph of potential vs. pH showing stability regions of various uranium compounds
  • Uranium price 1990–2022.
  • Reactions of uranium metal
  • The planet [[Uranus]], which uranium is named after
  • alt=A glass cylinder capped on both ends with metal electrodes. Inside the glass bulb there is a metal cylinder connected to the electrodes.

uranium         
n. uranium, silvery white radioactive metallic element used in nuclear reactions and atomic bombs
uranique      
uranic, of uranium; containing the radioactive element uranium (especially in a higher valence state)
pitchblende      
n. pitchblende, black mineral that contains uranium and radium

Ορισμός

uranium
[j?'re?n??m]
¦ noun the chemical element of atomic number 92, a grey dense radioactive metal used as a fuel in nuclear reactors. (Symbol: U)
Origin
C18: mod. L., from Uranus.

Βικιπαίδεια

Uranium

Uranium is a chemical element with symbol U and atomic number 92. It is a silvery-grey metal in the actinide series of the periodic table. A uranium atom has 92 protons and 92 electrons, of which 6 are valence electrons. Uranium radioactively decays by emitting an alpha particle. The half-life of this decay varies between 159,200 and 4.5 billion years for different isotopes, making them useful for dating the age of the Earth. The most common isotopes in natural uranium are uranium-238 (which has 146 neutrons and accounts for over 99% of uranium on Earth) and uranium-235 (which has 143 neutrons). Uranium has the highest atomic weight of the primordially occurring elements. Its density is about 70% higher than that of lead, and slightly lower than that of gold or tungsten. It occurs naturally in low concentrations of a few parts per million in soil, rock and water, and is commercially extracted from uranium-bearing minerals such as uraninite.

Many contemporary uses of uranium exploit its unique nuclear properties. Uranium-235 is the only naturally occurring fissile isotope, which makes it widely used in nuclear power plants and nuclear weapons. However, because of the tiny concentrations found in nature, uranium needs to undergo enrichment so that enough uranium-235 is present. Uranium-238 is fissionable by fast neutrons, and is fertile, meaning it can be transmuted to fissile plutonium-239 in a nuclear reactor. Another fissile isotope, uranium-233, can be produced from natural thorium and is studied for future industrial use in nuclear technology. Uranium-238 has a small probability for spontaneous fission or even induced fission with fast neutrons; uranium-235, and to a lesser degree uranium-233, have a much higher fission cross-section for slow neutrons. In sufficient concentration, these isotopes maintain a sustained nuclear chain reaction. This generates the heat in nuclear power reactors, and produces the fissile material for nuclear weapons. Depleted uranium (238U) is used in kinetic energy penetrators and armor plating.

The 1789 discovery of uranium in the mineral pitchblende is credited to Martin Heinrich Klaproth, who named the new element after the recently discovered planet Uranus. Eugène-Melchior Péligot was the first person to isolate the metal and its radioactive properties were discovered in 1896 by Henri Becquerel. Research by Otto Hahn, Lise Meitner, Enrico Fermi and others, such as J. Robert Oppenheimer starting in 1934 led to its use as a fuel in the nuclear power industry and in Little Boy, the first nuclear weapon used in war. An ensuing arms race during the Cold War between the United States and the Soviet Union produced tens of thousands of nuclear weapons that used uranium metal and uranium-derived plutonium-239. Dismantling of these weapons and related nuclear facilities is carried out within various nuclear disarmament programs and costs billions of dollars. Weapon-grade uranium obtained from nuclear weapons is diluted with uranium-238 and reused as fuel for nuclear reactors. The development and deployment of these nuclear reactors continue on a global base as they are powerful sources of CO2-free energy. Spent nuclear fuel forms radioactive waste, which mostly consists of uranium-238 and poses significant health threat and environmental impact.

Παραδείγματα από το σώμα κειμένου για uranium
1. Aujourd‘hui, plus personne ne vend des réacteurs ŕ uranium naturel.
2. Le sud–africain Uranium One rach';te son homologue canadien UrAsia.
3. Une fois cela résolu, l‘Inde pourra alors présenter au NSG le détail de ses immenses besoins en uranium.
4. Le Conseil de sécurité de l‘Onu a appelé l‘Iran ŕ geler l‘enrichissement de son uranium, ce qu‘il refuse.
5. En Afrique du Sud (mangan';se), en Niger (uranium), et au Soudan, en Angola et au Nigeria (pétrole). © Le Temps, 2007 . Droits de reproduction et de diffusion réservés.