gia vang , seo , bao ve viet nam , bao ve viet nam , bao ve viet nam , thoi trang cong so , gia dinh ban , website templates , magento wordpress opencart themes , magento wordpress opencart themes , magento wordpress opencart themes , Car Reviews information Magazine , thoi trang cong so , tin tuc moi viet nam , tin moi viet nam , chia se mon ngon , phim viet nam , ung dung game , tin giai tri , tin cong nghe , khach san da lat , anh showbiz , my pham trang da , bao da samsung , op lung iphone , bao ipad , tap chi sao , kem duong da , may tinh bang , samsung , dien thoai sky , iphone , smartphone gia re , phim club , bao cong nghe , ipad , iphone 5s , thoi trang , Game Mobile , game mobile , meo vat , me va be , OpenCart Themes , flash card

History and Uses

History and Uses of Carbon

Carbon, the sixth most abundant element in the universe, has been known since ancient times. Carbon is most commonly obtained from coal deposits, although it usually must be processed into a suitable form for commercial use. Three naturally occurring allotropes of carbon are known to exist: amorphous, diamond and graphite

Amorphous carbon is formed when a material containing carbon like green cokes from the distillation of petroleum, is burned in a coking furnaces for it to burn completely at elevated temperatures. Other forms of carbon are also known as lampblack, gas black, channel black or carbon black, is used to make inks, paints and rubber products and some of them can be suitable to be converted into graphite. All this type of carbons can be pressed into shapes, like one of the most used to form the cores of most dry cell batteries and graphite electrodes for the steel industries, among other things.

Graphite, one of the softest materials known, is a form of carbon that is primarily used as a lubricant. Although it does occur naturally. Most commercial synthetic graphite is produced by treating petroleum coke, a black tar residue remaining after the refinement of crude oil, in an oxygen-free oven. Naturally occurring graphite occurs in two forms, alpha and beta. These two forms have identical physical properties but different crystal structures. All artificially produced graphite is of the alpha type. In addition to its use as a lubricant, graphite, in a form known as coke, is used in large amounts in the production of steel. Coke is made by heating soft coal in an oven without allowing oxygen to mix with it. Although commonly called lead, the black material used in pencils is actually graphite.

Diamond, the third naturally occurring form of carbon, is one of the hardest substances known. Although naturally occurring diamond is typically used for jewellery, most commercial quality diamonds are artificially produced. These small diamonds are made by compressing graphite under high temperatures and pressures for several days or weeks and are primarily used to make things like diamond tipped saw blades. Although they posses very different physical properties, graphite and diamond differ only in their crystal structure.

A fourth allotrope of carbon, known as white carbon, was produced in 1969. It is a transparent material that can split a single beams of light into two beams, a property known as birefringence. Very little is known about this form of carbon.

Large molecules consisting only of carbon, known as buckminsterfullerene, or buckyballs, have recently been discovered and are currently the subject of much scientific interest. A single buckyball consists of 60 or 70 carbon atoms (C60 or C70) linked together in a structure that looks like a soccer ball. They can trap other atoms within their framework, appear to be capable of withstanding great pressures and have magnetic and superconductive properties.

Carbon-14, a radioactive isotope of carbon with a half-life of 5,730 years, is used to find the age of formerly living things through a process known as radiocarbon dating. The theory behind carbon dating is fairly simple. Scientists know that a small amount of naturally occurring carbon is carbon-14. Although carbon-14 decays into nitrogen-14 through beta decay, the amount of carbon-14 in the environment remains constant because new carbon-14 is always being created in the upper atmosphere by cosmic rays. Living things tend to ingest materials that contain carbon, so the percentage of carbon-14 within living things is the same as the percentage of carbon-14 in the environment. Once an organism dies, it no longer ingests much of anything. The carbon-14 within that organism is no longer replaced and the percentage of carbon-14 begins to decrease as it decays. By measuring the percentage of carbon-14 in the remains of an organism, and by assuming that the natural abundance of carbon-14 has remained constant over time, scientists can estimate when that organism died. For example, if the concentration of carbon-14 in the remains of an organism is half of the natural concentration of carbon-14, a scientist would estimate that the organism died about 5,730 years ago, the half-life of carbon-14.

There are nearly ten million known carbon compounds and an entire branch of chemistry, known as organic chemistry, is devoted to their study. Many carbon compounds are essential for life as we know it. Some of the most common carbon compounds are: carbon dioxide (CO2), carbon monoxide (CO), carbon disulfide (CS2), chloroform (CHCl3), carbon tetrachloride (CCl4), methane (CH4), ethylene (C2H4), acetylene (C2H2), benzene (C6H6), ethyl alcohol (C2H5OH) and acetic acid (CH3COOH).

Estimated Crustal Abundance: 2.00×102 milligrams per kilogram

Estimated Oceanic Abundance: 2.8×101 milligrams per litre