No. Carbon has four valence electrons and can make four bonds.
Carbon can only form bonds with a maximum of 4 other molecules. Carbon can only form bonds with a maximum of 4 other molecules.
A carbon can form a maximum of four bonds.
One carbon atom can form a maximum of four single bonds with other atoms.
A carbon atom needs four electrons to have a full outer shell so I guess it can form a maximum of four bonds.
4 per carbon is the maximum in most circumstances
A carbon atom can form a maximum of four bonds.
Carbon can only form bonds with a maximum of 4 other molecules. Carbon can only form bonds with a maximum of 4 other molecules.
A carbon can form a maximum of four bonds.
A single carbon atom can form a maximum of four covalent bonds. This is because carbon has four valence electrons available for bonding.
It depends on the bonding. Are the elements bonded to each other? or is the question simply as the maximum number of bonds for each element separately? Carbon has 4 bonds, hydrogen has 1 bond, oxygen has 2 bonds.
Carbon forms a maxiumum of four bonds, which can be in the form of two double bonds.
A carbon atom can form a maximum of four single covalent bonds with other elements. Carbon has four valence electrons that it can share with other atoms to complete its octet and achieve a stable configuration.
A single carbon atom can form a maximum of four covalent bonds. This is because carbon has four valence electrons, allowing it to share electrons with other atoms to achieve a full outer electron shell.
There are 6 covalent bonds in a molecule of cyclopropane - 3 carbon-carbon bonds and 3 carbon-hydrogen bonds.
No more than 3 bonds (A triple bond) may exist between two carbon atoms.
There are 7 bonds present in CH2Br2: 2 carbon-hydrogen bonds, 2 carbon-bromine bonds, and 3 carbon-carbon bonds.
Because carbon is tetravalent - four bonds, as in CH4.