Technetium - translation to γερμανικά
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Technetium - translation to γερμανικά

CHEMICAL ELEMENT WITH SYMBOL TC AND ATOMIC NUMBER 43
Element 43; Masurium; Danubium; Technetium tc 99m sulfur colloid; Technetium tc-99m sulfur colloid; Technitium; Tecnetium; Tc (element); Technicium; Technecium; Discovery of technetium; History of technetium
  • alt=Upper image: two drop-like features merged at their bottoms; they have a yellow centre and a red rim on a black background. Caption: Graves' Disease Tc-Uptake 16%. Lower image: red dots on black background. Caption: 250 Gy (30mCi) + Prednison.
  • Chloro-containing coordination complexes of technetium (<sup>99</sup>Tc) in various oxidation states: Tc(III), Tc(IV), Tc(V), and Tc(VI) represented.
  • The first [[technetium-99m generator]], unshielded, 1958. A Tc-99m [[pertechnetate]] solution is being eluted from Mo-99 [[molybdate]] bound to a chromatographic substrate
  • Maria Sklodowska-Curie]]), 85 astatine At (1940, in Berkeley), 87 francium Fr (1939, in France), 93 neptunium Np (1940, in Berkeley) and other actinides and lanthanides. Old symbols for: 18 argon Ar (here: A), 43 technetium Tc (Ma, masurium), 54 xenon Xe (X), 86 radon, Rn (Em, emanation)
  • Pertechnetate is one of the most available forms of technetium. It is structurally related to [[permanganate]].
  • Technetium (<sup>99m</sup>Tc) sestamibi]] ("Cardiolite") is widely used for imaging of the heart.
  • TcCl<sub>4</sub> forms chain-like structures, similar to the behavior of several other metal tetrachlorides.

Technetium         
n. technetium, chemical element
TBS      
Technetium-Szintigraphie, Knochenscan mit Hilfe von Technetium ausgeführt
Tc         
tc, technetium, chemical element

Ορισμός

technetium
[t?k'ni:???m]
¦ noun the chemical element of atomic number 43, an artificially made radioactive metal. (Symbol: Tc)
Origin
1940s: mod. L., from Gk tekhnetos 'artificial'.

Βικιπαίδεια

Technetium

Technetium is a chemical element with the symbol Tc and atomic number 43. It is the lightest element whose isotopes are all radioactive. All available technetium is produced as a synthetic element. Naturally occurring technetium is a spontaneous fission product in uranium ore and thorium ore, the most common source, or the product of neutron capture in molybdenum ores. This silvery gray, crystalline transition metal lies between manganese and rhenium in group 7 of the periodic table, and its chemical properties are intermediate between those of both adjacent elements. The most common naturally occurring isotope is 99Tc, in traces only.

Many of technetium's properties had been predicted by Dmitri Mendeleev before it was discovered. Mendeleev noted a gap in his periodic table and gave the undiscovered element the provisional name ekamanganese (Em). In 1937, technetium (specifically the technetium-97 isotope) became the first predominantly artificial element to be produced, hence its name (from the Greek τεχνητός, technetos, from techne, as in "craft", "art" and having the meaning of "artificial", + -ium).

One short-lived gamma ray-emitting nuclear isomer, technetium-99m, is used in nuclear medicine for a wide variety of tests, such as bone cancer diagnoses. The ground state of the nuclide technetium-99 is used as a gamma-ray-free source of beta particles. Long-lived technetium isotopes produced commercially are byproducts of the fission of uranium-235 in nuclear reactors and are extracted from nuclear fuel rods. Because even the longest-lived isotope of technetium has a relatively short half-life (4.21 million years), the 1952 detection of technetium in red giants helped to prove that stars can produce heavier elements.