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Chapter 14: Q7P (page 527)

Question: How many \(^{\bf{1}}{\bf{H}}\) NMR signals would you expect for each compound?

a.

b.

c.

Short Answer

Expert verified
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Step by step solution

01

NMR spectroscopy

The chemical shift of a proton is affected by the presence of an electronegative atom. The proton around the electronegative atom is deshielded, due to which it absorbs downfield.

02

Step 2: \(^{\bf{1}}{\bf{H}}\) NMR signals in a, b and c

a.

The given compound has four types of protons, and it will give four signals, as shown below.

Structure of a

b.

The given compound has five types of protons, and it will give five signals, as shown below.

Structure of b

c.

The given compound has five types of protons, and it will give five signals, as shown below.

Structure of c

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Most popular questions from this chapter

How many lines are observed in the \({}^{{\bf{13}}}{\bf{C}}\) NMR spectrum of each compound?

a.

b.

c.

d.

Label each statement as True or False.

a. When a nucleus is strongly shielded, the effective field is larger than the applied field and the absorption shifts downfield.

b. When a nucleus is strongly shielded, the effective field is smaller than the applied field and the absorption is shifted upfield.

c. A nucleus that is strongly deshielded requires a lower field strength for resonance.

d. A nucleus that is strongly shielded absorbs at a larger ฮด value.

How many lines are observed in the 13C NMR spectrum of each compound?

a.

b.

c.

d.

Question: Explain why the carbonyl carbon of an aldehyde or ketone absorbs farther downfield than the carbonyl carbon of an ester in a 13C NMR spectrum

Sketch the NMR spectrum of CH3CH2Cl , giving the approximate location of each NMR signal.
See all solutions

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