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A proton and Carbon-13 NMR for 2-Phenethylamine is described. First, the proton NMR spectrum. The solvent...

A proton and Carbon-13 NMR for 2-Phenethylamine is described. First, the proton NMR spectrum. The solvent is CDCL3, which is probably the peak around 7.192-1.1745. There is a quartet at 7.192, 7.189, 7.178, 7.1745 with an integrated value of 2.860. This might be the solvent peak. There is a triplet at 2.969, 2.956, 2.942 with an integrated value of 1.008. There is a triplet at 2.747, 2.733, 2.720 with an integrated value of 1.000. There is a multiplet at 1.267, 1.266, 1.265, 1.264, 1.263, 1.263, 1.262, 1.261, 1.261, 1.260, 1.260, 1.259, 1.258, 1.258, 1.258, 1.257, 1.256, 1.255, 1.255, 1.254, 1.252, 1.251, 1.251, 1.250 with an integrated value of 1.132. The transmitter frequency is 500.132508 MHz. Second, the Carbon-13 NMR spectrum. There is a quartet at 128.842, 128.829, 128.458, 128.449. There is a singlet at 126.148. There is a triplet at 77.259, 77.005, 76.751. There is a doublet at 43.594, 43.581. There is a singlet at 40.160. The transmitter frequency is 125.774803 MHz.

Describe the proton NMR and Carbon-13 NMR using the American Chemical Society (ACS) format for the experimental data.

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queen_honey_blossom answered 2 years ago
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