asymmetric carbon atom - перевод на греческий
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asymmetric carbon atom - перевод на греческий

CHEMICAL ELEMENT WITH SYMBOL C AND ATOMIC NUMBER 6; COMMON ELEMENT OF ALL KNOWN LIFE
Element 6; Carbonaceous; Carbons; Carbonous; Carbon (element); Carbon atom; Carbonic; C (element); Carbon atoms; Carbon Atom; Atomic number 6; History of carbon; Carbon gas; Properties of carbon
  • This anthracene derivative contains a carbon atom with 5 formal electron pairs around it.
  • [[Antoine Lavoisier]] in his youth
  • Correlation between the ''carbon cycle'' and formation of organic compounds. In plants, carbon dioxide formed by carbon fixation can join with water in [[photosynthesis]] (<span style="color:green;">green</span>) to form organic compounds, which can be used and further converted by both plants and animals.
  • 60}} fullerene in crystalline form
  • doi-access=free}}</ref>
  • Diagram of the carbon cycle. The black numbers indicate how much carbon is stored in various reservoirs, in billions tonnes ("GtC" stands for gigatonnes of carbon; figures are circa 2004). The purple numbers indicate how much carbon moves between reservoirs each year. The sediments, as defined in this diagram, do not include the ≈70&nbsp;million GtC of carbonate rock and [[kerogen]].
  • [[Carl Wilhelm Scheele]]
  • Sticks of vine and compressed [[charcoal]]
  • 70}}); g) [[amorphous carbon]]; h) [[carbon nanotube]]
  • A large sample of glassy carbon
  • Diamond output in 2005
  • Graphite ore, shown with a penny for scale
  • A cloth of woven carbon fibres
  • Pencil leads for mechanical pencils are made of [[graphite]] (often mixed with a clay or synthetic binder).
  • Structural formula of [[methane]], the simplest possible organic compound.
  • Raw diamond crystal
  • [[Silicon carbide]] [[single crystal]]
  • [[Tungsten carbide]] [[endmills]]
  • GLODAP]] [[climatology]])
  • Worker at [[carbon black]] plant in [[Sunray, Texas]] (photo by [[John Vachon]], 1942)

asymmetric carbon atom         
  • 4 asymmetric carbon atoms in an aldohexose
  • 3 asymmetric carbon atoms in an aldopentose
  • 2 asymmetric carbon atoms in a tetrose
Chiral carbon; Asymmetric Carbon; Asymmetric carbon atom
άτομο ασύμετρου άνθρακα
άτομο ασύμετρου άνθρακα      
asymmetric carbon atom
mild steel         
  • Iron-carbon [[phase diagram]], showing the temperature and carbon ranges for certain types of heat treatments
STEEL IN WHICH THE MAIN INTERSTITIAL ALLOYING CONSTITUENT IS CARBON
Mild steel; Medium-carbon steel; Medium carbon steel; High-carbon steel; High carbon steel; Very high carbon steel; Very high-carbon steel; Plain carbon steel; Low carbon steel; Mild Steel; Plain-carbon steel; Spheroidite; Carbon steels; Plain steel; High carbon; Spheroidizing; Low-carbon steel; 1018 steel; Hi-ten steel; High-tensile steel; Carbon Steel; Advanced High Strength Steel; Carbon-steel
χαλυβδοσίδηρος

Определение

asymmetrical warfare
¦ noun warfare involving surprise attacks by small, simply armed groups on a nation armed with modern high-tech weaponry.

Википедия

Carbon

Carbon (from Latin carbo 'coal') is a chemical element with the symbol C and atomic number 6. It is nonmetallic and tetravalent—its atom making four electrons available to form covalent chemical bonds. It belongs to group 14 of the periodic table. Carbon makes up about 0.025 percent of Earth's crust. Three isotopes occur naturally, 12C and 13C being stable, while 14C is a radionuclide, decaying with a half-life of about 5,730 years. Carbon is one of the few elements known since antiquity.

Carbon is the 15th most abundant element in the Earth's crust, and the fourth most abundant element in the universe by mass after hydrogen, helium, and oxygen. Carbon's abundance, its unique diversity of organic compounds, and its unusual ability to form polymers at the temperatures commonly encountered on Earth, enables this element to serve as a common element of all known life. It is the second most abundant element in the human body by mass (about 18.5%) after oxygen.

The atoms of carbon can bond together in diverse ways, resulting in various allotropes of carbon. Well-known allotropes include graphite, diamond, amorphous carbon, and fullerenes. The physical properties of carbon vary widely with the allotropic form. For example, graphite is opaque and black, while diamond is highly transparent. Graphite is soft enough to form a streak on paper (hence its name, from the Greek verb "γράφειν" which means "to write"), while diamond is the hardest naturally occurring material known. Graphite is a good electrical conductor while diamond has a low electrical conductivity. Under normal conditions, diamond, carbon nanotubes, and graphene have the highest thermal conductivities of all known materials. All carbon allotropes are solids under normal conditions, with graphite being the most thermodynamically stable form at standard temperature and pressure. They are chemically resistant and require high temperature to react even with oxygen.

The most common oxidation state of carbon in inorganic compounds is +4, while +2 is found in carbon monoxide and transition metal carbonyl complexes. The largest sources of inorganic carbon are limestones, dolomites and carbon dioxide, but significant quantities occur in organic deposits of coal, peat, oil, and methane clathrates. Carbon forms a vast number of compounds, with about two hundred million having been described and indexed; and yet that number is but a fraction of the number of theoretically possible compounds under standard conditions.