There are two oxygen double bonded to one carbon.
DOUBLE BOND.
Nitrogen can form single, double, and triple bonds with carbon. The triple bond form is called cyanide.
triple bond, but it is also the shortest.
no, single, double, and triple are allowed. That is what makes organic chemistry so flexible.
Yes, carbon can form either single or double bonds. Yes, and occasionally triple bonds too: eg. HCN.
Examples are oxygen, nitrogen , alkenes with carbon carbon double bonds, alkynes with carbon carbon triple bonds, the carbon oxygen double bonds in carbon dioxide
Nitrogen can form single, double, and triple bonds with carbon. The triple bond form is called cyanide.
triple bond, but it is also the shortest.
single
No. Benzene (C6H6) is a base for very many carbocyclic compounds. It contains six carbon atoms in a hexagon. The bonds between the carbon atoms are alternately single and double. The fourth is with the hydrogen. Acetylen (C2H2) jas a triple carbon-to-carbon bond.
no, single, double, and triple are allowed. That is what makes organic chemistry so flexible.
A single carbon can make four bonds but they may not all be single i.e it could make 4 single bonds (as in methane) or 2 double bonds (as in cardon dioxide) or one triple bond and a single bond (as in Ethyne).
Carbon-carbon bonds can be single double triple what bonds
Alkanes have only single carbon-carbon bond.Alkenes have min. a double carbon-carbon bond.Alkynes have min. a triple carbon-carbon bond.
Four bonds. It can form double and triple bonds, possible combinations that a carbon atom can have are, (a) 4 single bonds, (b) 1 double and (c)2 single, 1 triple and 1 single
Yes, carbon can form either single or double bonds. Yes, and occasionally triple bonds too: eg. HCN.
Examples are oxygen, nitrogen , alkenes with carbon carbon double bonds, alkynes with carbon carbon triple bonds, the carbon oxygen double bonds in carbon dioxide
Al can form double or triple and C can form single, double and triple(in some cases) and can form partially triple bond also( like CO in carbon monoxide)...;)