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Proton NMR. All 6 hydrogens are equivalent …only make 1-chloropropane. These 2 hydrogens are equivalent …only make 2-chloropropane. 2 sets of equivalent atoms. - 6 from the methyl groups - 2 from the CH 2 group. Proton NMR Spectrum of Ethanol.
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These 2 hydrogens are equivalent …only make 2-chloropropane
2 sets of equivalent atoms - 6 from the methyl groups - 2 from the CH2 group
Proton NMR Spectrum of Ethanol The strength of the absorption is proportional to the number of equivalent H atoms H Number of peaks = Number of proton environments H H H H H
Proton NMR spectra Number of peaks 1 n/a 2 6:4 1 n/a Ratio of strengths of absorption signals
Proton NMR spectra Number of peaks 2 1:3 1 n/a 4 3:2:2:1 Ratio of strengths of absorption signals
Proton NMR spectra Number of peaks 3 6:1:1 1 n/a 2 6:4 Ratio of strengths of absorption signals
Proton NMR spectra Number of peaks 3 9:2:1 2 3:1 3 3:2:1 Ratio of strengths of absorption signals
Chemical shift The chemical shift depends on what other atoms/groups are near the H. The closer the H is to electronegative atoms (e.g. O, Cl), the greater the shift. d = 2.0 - 2.9 d = 3.3 - 4.3 d = 0.7 - 1.6
For each of the following compounds... • • draw the molecule • • predict the number of signals • • predict the relative intensity of each signal • • predict the approximate chemical shift (δ) of each signal • propanoic acid • 2-chloropropane • 2-methylpropene • butanal • 2-methylbutane • methyl propanoate
