|
|
Line 41: |
Line 41: |
| </quiz> | | </quiz> |
| Now apply the n+1 rule from above to calculate the multiplicity, where n = the no. of Hs on neighboring carbons.} | | Now apply the n+1 rule from above to calculate the multiplicity, where n = the no. of Hs on neighboring carbons.} |
− |
| |
− | <quiz>
| |
− | {For the left hand CH<sub>3</sub>, what is the multiplicity?
| |
− | |type="()"}
| |
− | + Zero
| |
− | || Wrong! Remember it's n+1
| |
− | - 1
| |
− | || Correct!
| |
− | - 2
| |
− | || Wrong! Remember it's n+1
| |
− | - 3
| |
− | || Wrong! Remember it's n+1
| |
− | - 4
| |
− | || Wrong! Remember it's n+1
| |
− |
| |
− | {What do you call a peak with that multiplicity?
| |
− | |type="()"}
| |
− | + singlet
| |
− | || Correct! Now go on to the next question.
| |
− | - doublet
| |
− | || Wrong! Look again...
| |
− | - triplet
| |
− | || Wrong! Look again...
| |
− | - quartet
| |
− | || Wrong! Look again...
| |
− | - multiplet
| |
− | || Wrong! Look again...
| |
− | </quiz>
| |
− | <quiz>
| |
− | {For the CH<sub>2</sub>, how many hydrogens are on the neighboring carbon?
| |
− | |type="()"}
| |
− | + Zero
| |
− | || Wrong! Look again...
| |
− | - 1
| |
− | || Wrong! Look again...
| |
− | - 2
| |
− | || Wrong! Look again...
| |
− | - 3
| |
− | || Correct! Now go on to the next question.
| |
− | - 4
| |
− | || Wrong! Look again...
| |
− | </quiz>
| |
− | Now apply the n+1 rule from above to calculate the multiplicity, where n = the no. of Hs on neighboring carbons.
| |
− |
| |
− | <quiz>
| |
− | {For the CH<sub>2</sub>, what is the multiplicity?
| |
− | |type="()"}
| |
− | + Zero
| |
− | || Wrong! Remember it's n+1
| |
− | - 1
| |
− | || Wrong! Remember it's n+1
| |
− | - 2
| |
− | || Wrong! Remember it's n+1
| |
− | - 3
| |
− | || Wrong! Remember it's n+1
| |
− | - 4
| |
− | || Correct!
| |
− |
| |
− | {What do you call a peak with that multiplicity?
| |
− | |type="()"}
| |
− | + singlet
| |
− | || Wrong! Look again...
| |
− | - doublet
| |
− | || Wrong! Look again...
| |
− | - triplet
| |
− | || Wrong! Look again...
| |
− | - quartet
| |
− | || Correct! Now go on to the next question.
| |
− | - multiplet
| |
− | || Wrong! Look again...
| |
− | </quiz>
| |
− | <quiz>
| |
− | {For the right hand CH<sub>3</sub>, how many hydrogens are on the neighboring carbon?
| |
− | |type="()"}
| |
− | + Zero
| |
− | || Wrong! Look again...
| |
− | - 1
| |
− | || Wrong! Look again...
| |
− | - 2
| |
− | || Correct! Now go on to the next question.
| |
− | - 3
| |
− | || Wrong! Look again...
| |
− | - 4
| |
− | || Wrong! Look again...
| |
− | </quiz>
| |
− | Now apply the n+1 rule from above to calculate the multiplicity, where n = the no. of Hs on neighboring carbons.
| |
− | <quiz>
| |
− | {For the right hand CH<sub>3</sub>, what is the multiplicity?
| |
− | |type="()"}
| |
− | + Zero
| |
− | || Wrong! Remember it's n+1
| |
− | - 1
| |
− | || Wrong! Remember it's n+1
| |
− | - 2
| |
− | || Wrong! Remember it's n+1
| |
− | - 3
| |
− | || Correct!
| |
− | - 4
| |
− | || Wrong! Remember it's n+1
| |
− |
| |
− | {What do you call a peak with that multiplicity?
| |
− | |type="()"}
| |
− | + singlet
| |
− | || Wrong! Look again...
| |
− | - doublet
| |
− | || Wrong! Look again...
| |
− | - triplet
| |
− | || Correct! You successfully analyzed the first structure.
| |
− | - quartet
| |
− | || Wrong! Look again...
| |
− | - multiplet
| |
− | || Wrong! Look again...
| |
− |
| |
− | </quiz>
| |
| | | |
| [[Category:Chemistry 341]] | | [[Category:Chemistry 341]] |
This page is to help you to answer Exercise 4 in the Chem 341 NMR Workshop. The guided help is (for the first structure only) below the images.
Structures
Error: Image is invalid or non-existent.
First structure
You should answer each question correctly before moving onto the next.
<quiz>
{For the left hand CH3, how many hydrogens are on the neighboring carbon?
|type="()"}
+ Zero
|| Correct! Now go on to the next question.
- 1
|| Wrong! Look again...
- 2
|| Wrong! Look again...
- 3
|| Wrong! Look again...
- 4
|| Wrong! Look again...
</quiz>
Now apply the n+1 rule from above to calculate the multiplicity, where n = the no. of Hs on neighboring carbons.}