Glucinum - ορισμός. Τι είναι το Glucinum
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Τι (ποιος) είναι Glucinum - ορισμός

CHEMICAL ELEMENT WITH SYMBOL BE AND ATOMIC NUMBER 4
Glucinium; Element 4; Glucinum; Beryllium (element); Berylium; Berrylium; Beryllium bonds; Glucine; Beryllium metallurgy; Berillium; Beryllium minerals; Glucium; Be2+; Atomic number 4; Be (element); Berythium; Berilium; Neutron multiplier; Beryllium compounds; Beryllium compound; Compounds of beryllium; History of beryllium; Properties of beryllium
  • date=14 April 2021 }}. periodictable.com</ref>
  • Structure of the trimeric hydrolysis product of beryllium(II)
  • Beryllium hydrolysis. Water molecules attached to Be are omitted in this diagram
  • A square beryllium foil mounted in a steel case to be used as a window between a vacuum chamber and an [[X-ray microscope]]. Beryllium is highly transparent to X-rays owing to its low [[atomic number]].
  • Schematic structure of basic beryllium acetate
  • compound]] of beryllium.
  • Beryllium copper adjustable wrench
  • Beryllium ore with 1US¢ coin for scale
  • Beryllium target which converts a proton beam into a neutron beam
  • Two CANDU fuel bundles: Each about 50&nbsp;cm in length and 10&nbsp;cm in diameter. Notice the small appendages on the fuel clad surfaces
  • [[Friedrich Wöhler]] was one of the men who independently isolated beryllium
  • [[Louis-Nicolas Vauquelin]] discovered beryllium
  • Plot showing variations in solar activity, including variation in sunspot number (red) and <sup>10</sup>Be concentration (blue). Note that the beryllium scale is inverted, so increases on this scale indicate lower <sup>10</sup>Be levels

Glucinum         
·noun A rare metallic element, of a silver white color, and low specific gravity (2.1), resembling magnesium. It never occurs naturally in the free state, but is always combined, usually with silica or alumina, or both; as in the minerals phenacite, chrysoberyl, beryl or emerald, euclase, and danalite. It was named from its oxide glucina, which was known long before the element was isolated. Symbol Gl. Atomic weight 9.1. Called also beryllium.
Beryllium         
Beryllium is a chemical element with the symbol Be and atomic number 4. It is a steel-gray, strong, lightweight and brittle alkaline earth metal.
beryllium         
[b?'r?l??m]
¦ noun the chemical element of atomic number 4, a hard grey metal which is the lightest of the alkaline earth metals. (Symbol: Be)

Βικιπαίδεια

Beryllium

Beryllium is a chemical element with the symbol Be and atomic number 4. It is a steel-gray, strong, lightweight and brittle alkaline earth metal. It is a divalent element that occurs naturally only in combination with other elements to form minerals. Notable gemstones high in beryllium include beryl (aquamarine, emerald, red beryl) and chrysoberyl. It is a relatively rare element in the universe, usually occurring as a product of the spallation of larger atomic nuclei that have collided with cosmic rays. Within the cores of stars, beryllium is depleted as it is fused into heavier elements. Beryllium constitutes about 0.0004 percent by mass of Earth's crust. The world's annual beryllium production of 220 tons is usually manufactured by extraction from the mineral beryl, a difficult process because beryllium bonds strongly to oxygen.

In structural applications, the combination of high flexural rigidity, thermal stability, thermal conductivity and low density (1.85 times that of water) make beryllium metal a desirable aerospace material for aircraft components, missiles, spacecraft, and satellites. Because of its low density and atomic mass, beryllium is relatively transparent to X-rays and other forms of ionizing radiation; therefore, it is the most common window material for X-ray equipment and components of particle detectors. When added as an alloying element to aluminium, copper (notably the alloy beryllium copper), iron, or nickel, beryllium improves many physical properties. For example, tools and components made of beryllium copper alloys are strong and hard and do not create sparks when they strike a steel surface. In air, the surface of beryllium oxidizes readily at room temperature to form a passivation layer 1–10 nm thick that protects it from further oxidation and corrosion. The metal oxidizes in bulk (beyond the passivation layer) when heated above 500 °C (932 °F), and burns brilliantly when heated to about 2,500 °C (4,530 °F).

The commercial use of beryllium requires the use of appropriate dust control equipment and industrial controls at all times because of the toxicity of inhaled beryllium-containing dusts that can cause a chronic life-threatening allergic disease in some people called berylliosis. Berylliosis causes pneumonia and other associated respiratory illness.