Calculating Degree of Unsaturation

Because of its double bond, an alkene has fewer hydrogens than an alkane with the same number of carbons — CnH2n for an alkene versus CnH2n+2 for an alkane — and is therefore referred to as unsaturated. Ethylene, for example, has the formula C₂H₄, whereas ethane has the formula C₂H₆.

In general, each ring or double bond in a molecule corresponds to a loss of two hydrogens from the alkane formula CnH2n+2. Knowing this relationship, it’s possible to work backward from a molecular formula to calculate a molecule’s degree of unsaturation—the number of rings and/or multiple bonds present in the molecule. Let’s assume that we want to find the structure of an unknown hydrocarbon. A molecular weight determination yields a value of 82 amu, which corresponds to a molecular formula of C₆H₁₀. Since the saturated C6 alkane (hexane) has the formula C₆H₁₄, the unknown compound has two fewer pairs of hydrogens (H₁₄  H₁₀ = H₄ = 2 H₂) so its degree of unsaturation is 2. The unknown therefore contains two double bonds, one ring and one double bond, two rings, or one triple bond. There’s still a long way to go to establish its structure, but the simple calculation has told us a lot about the molecule.

Similar calculations can be carried out for compounds containing elements other than just carbon and hydrogen.

• Organohalogen compounds (C, H, X, where X= F, Cl, Br, or I) A halogen substituent acts as a replacement for hydrogen in an organic molecule, so we can add the number of halogens and hydrogens to arrive at an equivalent hydrocarbon formula from which the degree of unsaturation can be found. For example, the formula C₄H₆Br₂ is equivalent to the hydrocarbon formula C₄H₈ and thus corresponds to one degree of unsaturation.

• Organooxygen compounds (C, H, O) Oxygen forms two bonds, so it

doesn’t affect the formula of an equivalent hydrocarbon and can be ignored when calculating the degree of unsaturation. You can convince yourself of this by seeing what happens when an oxygen atom is inserted into an alkane bond: C - C becomes C - O - C or C - H becomes C - O - H, and there is no change in the number of hydrogen atoms. For example, the formula C₅H₈O is equivalent to the hydrocarbon formula C5H8 and thus corresponds to two degrees of unsaturation.

• Organonitrogen compounds (C, H, N) Nitrogen forms three bonds, so an organonitrogen compound has one more hydrogen than a related hydrocarbon.  We therefore subtract the number of nitrogens from the number of hydrogens to arrive at the equivalent hydrocarbon formula.  Again, you can convince yourself of this by seeing what happens when a nitrogen atom is inserted into an alkane bond: C - C becomes C - NH - C or C - H becomes C - NH₂, meaning that one additional hydrogen atom has been added. We must therefore subtract this extra hydrogen atom to arrive at the equivalent hydrocarbon formula. For example, the formula C₅H₉N is equivalent to C₅H₈ and thus has two degrees of unsaturation.

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