Table of peaks:
| Hydrogen label color (left to right) | Reason for assignment |
|---|---|
| Violet | This hydrogen was assigned to this peak because it integrates to one hydrogen and has a large chemical shift, which is due to it being on an alkene and its proximity to a nitrogen atom |
| Lime green | This hydrogen was assigned to this peak because it integrates to one hydrogen and has a reasonably large chemical shift, which is a result of it being bonded to a carbon next to a nitrogen atom |
| Purple-pink | These hydrogens were assigned to this peak because they are downshifted due to the adjacent sulfur atom |
| Yellow | These hydrogens were assigned to this peak because they approximately integrate to four and because they would have a large chemical shift from a normal alkane position due to the electronegative iodine atom nearby |
| Teal | These hydrogens were assigned to this peak because it integrates to three and because it is appropriately upfield for alkane hydrogens three bonds away from a nitrogen atom |
| Red | This group of hydrogens was assigned to this cluster of peaks because it has a high integration value and is downshifted to a reasonable chemical shift, which comes from being in between an oxygen and a nitrogen atom |
| Green | These hydrogens were assigned to this peak because it has a low chemical shift due to the hydrogens' alkane properties |
| Blue | These hydrogens were assigned to this cluster of peaks because they have a high integration value, strong peaks, and very little chemical shift, which is characteristic of long alkane chains. |