xenon$92716$ - translation to spanish
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xenon$92716$ - translation to spanish

Xeneisol; Xenon-133; Xeon 133; Xenon 133; Xe-133; Xenon-125; Xenon-124; Xenon-134; Xenon-136; Xe-136; Xenon-129; Xenon-126; Xenon-127; Xenon-128; Xenon-130; Xenon-131; Xenon-132; Xenon-110; Xenon-111; Xenon-112; Xenon-113; Xenon-114; Xenon-115; Xenon-116; Xenon-117; Xenon-118; Xenon-119; Xenon-120; Xenon-121; Xenon-122; Xenon-123; Xenon-137; Xenon-138; Xenon-139; Xenon-140; Xenon-141; Xenon-142; Xenon-143; Xenon-144; Xenon-145; Xenon-146; Xenon-147; Xe-134; ATC code V09EX03; ATCvet code QV09EX03; Isotopes of Xenon; Xenon 129; Xenon-109; Xenon-108; Xenon isotope; Xenon radioisotope; Xenon isotopes

xenon      
n. xenón
xenon         
  • An acrylic cube specially prepared for element collectors containing liquefied xenon
  • Space Shuttle ''Atlantis'' bathed in xenon lights
  • A layer of solid xenon floating on top of liquid xenon inside a high voltage apparatus.
  • Liquid (featureless) and crystalline solid Xe nanoparticles produced by implanting Xe<sup>+</sup> ions into aluminium at room temperature.
  • animated version]])
  • alt=A model of planar chemical molecule with a blue center atom (Xe) symmetrically bonded to four peripheral atoms (fluorine).
  • alt=A metal cylinder with electrodes attached to its side. Blue diffuse light is coming out of the tube.
  • alt=Elongated glass sphere with two metal rod electrodes inside, facing each other. One electrode is blunt and another is sharpened.
  • alt=Many cubic transparent crystals in a petri dish.
CHEMICAL ELEMENT WITH ATOMIC NUMBER OF 54 AND HEAVIEST STABLE NOBLE GAS
Element 54; Xenon compounds; Xenon anesthesia; Xenon anaesthesia; Xenon chloride lasers; Xenon chloride laser; ATC code N01AX15; ATCvet code QN01AX15; Xenon monofluoride; Xenon gas; Xe (element); History of xenon
xenón
headlamp         
  • Directional (steering) headlamp (middle) on a 1928 Willys-Knight 70A Touring
  • 1679108}}
  • U.S. standard 7-inch headlamp combining low and high beam with turn signal lights below on a 1949 [[Nash 600]]
  • Chrysler 300]]
  • Rectangular sealed-beam headlamps with turn signal light below on a 1979 [[AMC Concord]]
  • ECE dipped/low beam
  • ECE high/main beam
  • front position light]] function
  • front position light]] function
  • Digitally controlled adaptive non-glare multi-LED headlamp technology, on the [[Audi A4]]
  • Opel Vectra]] C
  • Audi Matrix Laser headlamp at [[Consumer Electronics Show]] 2014
  • European (top) and US (bottom) headlamp configurations on a [[Citroën DS]]
  • 1917 advertisement for the Corning Conaphore headlamp lens shown above
  • Corning]] Conaphore. [[Selective yellow]] "Noviol" glass version shown.
  • Headlamp sold in Sweden not long before '''[[Dagen H]]''' changeover from left to right hand traffic. Opaque decal blocks the lens portion for low beam upkick to the right, and bears the warning: "Not to be removed before 3 September 1967".
  • Directional (steering) headlamps on a [[Citroën DS]] – the driver can see clearly through curves.
  • [[Woodlite]] reflector-optic headlamp (1926−1932) US-Patent 1.660.699.
  • cm]])
  • H7 bulb
  • Lens optics, side view. Light is dispersed vertically (shown) and laterally (not shown).
  • Projector optics, side view
  • A reflector-optic headlamp on a [[Jeep Liberty]]. The clear front cover lens serves only a protective function.
  • Reflector optics, side view
  • Headlight indicator example
  • abbr=on}} round sealed-beam headlamp with lens optics on a [[Jaguar E-type]]. The flutes and prisms spread and distribute the light collected by the reflector.
  • 1957 [[Citroën 2CV]] with [[selective yellow]] headlamps and auxiliary lamp
  • LED headlamp inside
  • Headlamp leveling
  • HID projector low beam headlamp illuminated on a [[Lincoln MKS]]
  • right-traffic]] beam shown
  • Mercedes Benz C-Class]]
  • Mazda 323F]]
  • Two Mercedes-Benz SL: right with US-spec sealed beam type headlamps; left with normal headlamps for other markets
  • Intelligent Light System on A-Class
  • Citroën Ami 6]]
  • Symmetrical high beam illumination of road surface
  • Headlamp washers in action on a [[Skoda Yeti]]
  • Ford Model T with acetylene gas headlamps
LAMP MOUNTED IN THE FRONT OF A VEHICLE
Headlights; Carlight; Directional headlamp; Xenon HID headlamp; Xenon HID lamps; Xenon HID lamp; Automatic headlight dimmer; Headlamps; Headlight styling; Square headlight; Square light; Bi-xenon HID headlamp; Automotive headlamp; Automatic headlight; Adaptive headlights; Headlight; "Home safe" headlamps; Home safe headlamps; Home Safe Headlamps; Bicycle lamp; Car light; HID headlamp; Hid headlamp; H4 lamp; High beam lamp; Adaptive highbeam; Adaptive High Beam Assist; High beam; Low beam; Adaptive Highbeam Assist; Adaptive headlamp; Adaptive Front-lighting System (AFS); Adaptive Front Lighting System (AFS); Intelligent Highbeam; Adaptive Front-lighting System; Automatic highbeam headlamp; LED headlamp; High-Beam Assist; High beams; Low beams; Low Beams; Low Beam; High Beams; High Beam; Adaptive highbeam assist; Glare-free high beam; Adaptive headlamps; H4 Bulb; H2 lamp; Hi-beam; H4 (lamp); Laser bulb; Laser lamp; Head lamp; Head-lamp; Halogen Infrared Reflective; Matrix LED; MULTIBEAM LED; Bi-xenon; Bi-Xenon; Selective Beam; Anti-dazzle High-Beam Assistant; High-Beam Assistant; Adaptive High-beam System; Automatic High Beam; LED Headlamp; High-intensity discharge headlamp; High-intensity discharge headlight; Dynamic Light Assist; Adaptive high beam; Automatic high beam; Variable headlight range control; Auto High Beam; Intelligent Light System; Bi-xenon headlamp; LED headlight; Headlamp Assist; Active Light System; High-beam headlight; Automatic headlamp; HID headlight; Xenon headlamp; Active High Beam; Adaptive Headlight; Bi-Xenon headlight; High-beam assistant; Adaptive headlight; High Beam Assistant; LED Headlight; LED High Performance headlamp; Non-glare high beam; Projector headlamp; HID Headlight; High Beam Assist; Cornering light; Headlamp lens cleaning system; Xenon plus; Adaptive Highbeam Assist Plus; Active light function; Adaptive Highbeam Assist PLUS; Advanced Front-Lighting System (AFS); Adaptive Lighting; Auto high-beam; Active Light Function; Advanced front-lighting system (AFS); Partial main beam; Adaptive front lighting; Bi-xenon headlight; Country mode; Country light; Motorway mode; Light function for roundabouts; Non-glare highbeam; Laser headlamp; Adaptive light; Polyellipsoidal headlamp; Xenon headlight; Headlamp leveling; Adaptive front-light system; Adaptive Front-light System; LED headlights; Adaptive front light; Intelligent High Beam; Genesis Intelligent Front-lighting System; GuideMatic
faro

Definition

xenon
['z?n?n, 'zi:-]
¦ noun the chemical element of atomic number 54, a member of the noble gas series, obtained by distillation of liquid air and used in some specialized electric lamps. (Symbol: Xe)
Origin
C19: from Gk, neut. of xenos 'strange'.

Wikipedia

Isotopes of xenon

Naturally occurring xenon (54Xe) consists of seven stable isotopes and two very long-lived isotopes. Double electron capture has been observed in 124Xe (half-life 1.8 ± 0.5(stat) ± 0.1(sys) ×1022 years) and double beta decay in 136Xe (half-life 2.165 ± 0.016(stat) ± 0.059(sys) ×1021 years), which are among the longest measured half-lives of all nuclides. The isotopes 126Xe and 134Xe are also predicted to undergo double beta decay, but this has never been observed in these isotopes, so they are considered to be stable. Beyond these stable forms, 32 artificial unstable isotopes and various isomers have been studied, the longest-lived of which is 127Xe with a half-life of 36.345 days. All other isotopes have half-lives less than 12 days, most less than 20 hours. The shortest-lived isotope, 108Xe, has a half-life of 58 μs, and is the heaviest known nuclide with equal numbers of protons and neutrons. Of known isomers, the longest-lived is 131mXe with a half-life of 11.934 days. 129Xe is produced by beta decay of 129I (half-life: 16 million years); 131mXe, 133Xe, 133mXe, and 135Xe are some of the fission products of both 235U and 239Pu, so are used as indicators of nuclear explosions.

The artificial isotope 135Xe is of considerable significance in the operation of nuclear fission reactors. 135Xe has a huge cross section for thermal neutrons, 2.65×106 barns, so it acts as a neutron absorber or "poison" that can slow or stop the chain reaction after a period of operation. This was discovered in the earliest nuclear reactors built by the American Manhattan Project for plutonium production. Because of this effect, designers must make provisions to increase the reactor's reactivity (the number of neutrons per fission that go on to fission other atoms of nuclear fuel) over the initial value needed to start the chain reaction. For the same reason, the fission products produced in a nuclear explosion and a power plant differ significantly as a large share of 135
Xe
will absorb neutrons in a steady state reactor, while basically none of the 135
I
will have had time to decay to Xenon before the explosion of the bomb removes it from the neutron radiation.

Relatively high concentrations of radioactive xenon isotopes are also found emanating from nuclear reactors due to the release of this fission gas from cracked fuel rods or fissioning of uranium in cooling water. The concentrations of these isotopes are still usually low compared to the naturally occurring radioactive noble gas 222Rn.

Because xenon is a tracer for two parent isotopes, Xe isotope ratios in meteorites are a powerful tool for studying the formation of the solar system. The I-Xe method of dating gives the time elapsed between nucleosynthesis and the condensation of a solid object from the solar nebula (xenon being a gas, only that part of it that formed after condensation will be present inside the object). Xenon isotopes are also a powerful tool for understanding terrestrial differentiation. Excess 129Xe found in carbon dioxide well gases from New Mexico was believed to be from the decay of mantle-derived gases soon after Earth's formation. It has been suggested that the isotopic composition of atmospheric xenon fluctuated prior to the GOE before stabilizing, perhaps as a result of the rise in atmospheric O2.