a. 3.65 ppm (Hydrogen attached alpha carbon to OH group)
b. 3.4 ppm
c. 2.0 ppm
d. 4.35 ppm
e. 3.6 ppm (Hydrogen attached to carbon ii.e., next to oxygen)
f. 2.3-2.6 ppm
g. 7.4 ppm (aromatic hydrogen in range of 7-7.5 ppm)
h. 5.42 ppm (vinylic hydrogen i.e., hydrogen attached to alkene C)
i. 1.8 ppm (hydrogen attached to allylic carbon)
j. 9.7 ppm (aldehydic proton)
k. 11 ppm (carboxylic acid proton)
All values are approximate based on functional groups.
video for that figure in the e-book. For each labelled proton, indicate the ppm range you...
L. Interpreting the Table 1. For the following exercise, reference Figure 13.8 in your textbook or e-book, and watch the video for that future in the e-book. For each labelled proton, indicate the ppm range you would expect to find it in for an NMR spectrum. Don't over think it, just use the chart at this point (Note: In many cases, especially in biochemistry, there will be many complicating factors - here we are just looking at the simple model)....
1. Interpreting the Table 1. For the following exercise, reference Figure 13.8 in your textbook or e-book, and watch the video for that figure in the e-book, For each labelled proton, indicate the ppm range you would expect to find it in for an NMR spectrum. Don't over-think it, just use the chart at this point (Note: In many cases, especially in biochemistry, there will be many complicating factors - here we are just looking at the simple model). CH...