Carbon has four electrons in its valence shell (outershell). Since this energy shell can hold eight electrons, each carbon atom can share electrons with up to four different atoms. Carbon can combine with other elements as well as with itself. This allows carbon to form many different compounds.
Carbon has 4 valence electrons. It needs 8 for a full outer shell, so it can form 4 covalent bonds with other atoms to gain the missing electrons.
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Carbon has four electrons in its valence shell (outershell). Since this energy shell can hold eight electrons, each carbon atom can share electrons with up to four different atoms. Carbon can combine with other elements as well as with itself. This allows carbon to form many different compounds.
Carbon is necessary in formation of proteins,carbohydrate and fats. These are used in used in formation of cytoskeleton, enzymes,hormones and regulation of physiology of body.
This is the chemistry of compounds containing carbon; but traditionally compounds containing carbon are considered as inorganic compounds.
Basically, all organic compounds have carbon and organic chemistry is the study of carbon based comounds. Inorganic generally do not contain carbon (with exceptions being carbon monoxide, carbon dioxide, metal carbonates, metal bicarbonates and metal carbides).
In general organic compounds / substances / materials contain carbon atoms bonded with other atoms and/or those related to life. It is the chemistry of carbon containing compounds. Inorganic is everything else and generally do not contain carbon (with some exceptions).
Carbon has four electrons in its valence shell (outershell). Since this energy shell can hold eight electrons, each carbon atom can share electrons with up to four different atoms. Carbon can combine with other elements as well as with itself. This allows carbon to form many different compounds.
Carbon can atoms can form four covalent bonds with many, many different elements.
The tendency for carbon to bond with itself results in an enormous variety of organic compounds.
All organic compounds feature the element carbon.
covalent bonds and molecular solids are characteristic of organic compounds
All of these compounds are non metals and all of these can be found in particular organic compounds.
catenation is the property of carbon that it can join with other carbon atoms to form carbon-carbon bonds. this can result in yhe formation of compounds with long change.
Organic chemistry is defined as 'the chemistry of compounds of Carbon'. Or, more accurately, compounds containing carbon-hydrogen bonds. (For example, carbon dioxide doesn't count as organic.)
Covalent Bonds
Any compound MUST be made up of atoms of more that one type - otherwise they are not compounds. The only common characteristic of organic compounds is that they contain atoms of carbon, but a lump of pure carbon need not be organic.
Carbon's special bonding ability allows it to form many different compounds.
Carbon is necessary in formation of proteins,carbohydrate and fats. These are used in used in formation of cytoskeleton, enzymes,hormones and regulation of physiology of body.