The correct answer is: CN-.
maybe be something else on yours..
Each and every: because Covalent Bonds are what hold ATOMS together. Two or more atoms form a molecule, large collections of molecules form macromolecules, next come biomolecules which then 'accumulate' to form Cells.
water
ammonia
carbon dioxide
sulfur dioxide
methane
ethane
methanol
ethanol
benzene
toluene
hexane
pentane
acetone
acetaldehyde
formaldehyde
diethyl ether
A covalent bond is between any two non-metals such as CO2, H2O, and SF4
A covalently bonded molecule is known as a covalent bond.
Some elements share electrons to form compounds and do not form giant lattices. They exist as small molecules and these are known as molecular compounds.
For example organic compounds have covalent bonds.
CO2 Carbon Dioxide
CO
Covalent compounds are formed by covalent bonds.
Covalent bonds form compounds through the sharing of electrons.
Compounds with covalent bonds form molecules. Compounds with ionic bonds form ionic lattices.
Compounds with both ionic and covalent bonds contain polyatomic ions.
"Shares electrons" is a characteristic of covalent bonds, which form covalent compounds.
Covalent compounds are formed by covalent bonds.
covalent
Covalent bonds form compounds through the sharing of electrons.
Compounds with covalent bonds form molecules. Compounds with ionic bonds form ionic lattices.
Hydrogen forms three covalent bonds in electrically neutral compounds.
Hydrogen forms three covalent bonds in electrically neutral compounds.
Compounds with both ionic and covalent bonds contain polyatomic ions.
"Shares electrons" is a characteristic of covalent bonds, which form covalent compounds.
Metalic bonds are in metals. Covalent bonds are in covalent compounds.
Organic molecules all contain covalent bonds. It is possible, though not common, to have an ionic bond as well as covalent bonds in a molecule.
Organic compounds have covalent bonds, and these compounds are the basis of life on Earth; the human body is composed of them.
It is used to form molecules and various compounds. In fact, most of the bonds are covalent bonds.