Chapter 14: Q29P (page 527)
Esters of chrysanthemic acid are naturally occurring insecticides. How many lines are present in the \({}^{{\bf{13}}}{\bf{C}}\) NMR spectrum of chrysanthemic acid?
Short Answer
The \({}^{13}C\)NMR spectrum consists of nine lines.
Step by step solution
Step 1: \({}^{{\bf{13}}}{\bf{C}}\) NMR spectroscopy
The\({}^{{\bf{13}}}{\bf{C}}\)NMR spectroscopy is used to describe the carbon environment of a compound.
The signals in the \({}^{13}C\) NMR spectrum give the number of equivalent and non-equivalent carbon atoms which is used to interpret the structure of an unknown compound.
Equivalent and non-equivalent carbon atoms
The carbon atoms that have the same chemical environment and that resonate at the same frequency are termed chemically equivalent.
The carbon atoms that have a different chemical environment and that resonate at different frequencies are termed non-equivalent carbon atoms.
Number of lines in the \({}^{{\bf{13}}}{\bf{C}}\) NMR spectrum of chrysanthemic acid
There are nine non-identical carbon atoms in chrysanthemic acid and hence its \({}^{13}C\)NMR spectrum consists of nine signals/lines.
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