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Chapter 14: Q14-33P (page 651)

a) For the following compounds which pairs of hydrogen (Ha and Hb) are enantiotopic hydrogens?

b) which pairs are diastereotopic hydrogens?

Short Answer

Expert verified

a) Structure A

b) Structure B, Structure C, Structure D

Step by step solution

01

Definition of enantiotopic and diastereotopic hydrogens

If carbon is attached to two protons and to two different groups, then the protons are said to be enantiotopic hydrogens. These two hydrogens are called enantiomers if deuterium is placed instead of these protons.

Diastereotopic hydrogens results in diastereomers when replacing two identical hydrogens with another group

02

Likely enantiotopic hydrogens

(a)

In diagram A, butane contains enantiotopic hydrogens. Replacing Ha and Hb proton of second carbon of butane creates a pair of enantiomers. Identical protons are attached to different groups in the same carbon so, these hydrogens are enantiotopic hydrogens.

03

Likely diastereotopic hydrogens

(a)

In diagram D, Propene contains diastereotopic hydrogens. Replacing Ha and Hb proton results in a pair of diastereomers. This can be represented as shown below.


Propene

b.

Bromocyclobutane

In diagram B, bromocyclobutane contains diastereotopic hydrogens.Replacing geminal protons that is adjacent to the chiral central results in diastereomers.

c.

1,1- methylcyclopentane


In diagram C, 1,1-methylcyclopentane contains diastereotopic hydrogens.When Ha and Hb protons are replaced by deuterium, it results in a pair of diasteromers.

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Most popular questions from this chapter

How canH1NMR be used to prove that the addition of HBr to propene follows the rule that says that the electrophile adds to the sp2 carbon bonded to the most hydrogens?

Identify each of the following compounds from its molecular formula and its H1NMR spectrum:

a.C8H8

b.C6H12O

c.C9H18O

d.C4H8O

a. If two signals differ by 1.5 ppm in a 300 MHz spectrometer, by how much do they differ in a 500 MHz spectrometer?

b. If two signals differ by 90 Hz in a 300 MHz spectrometer, by how much do they differ in a 500 MHz spectrometer?

Calculate the amount of energy (in calories) required to flip an 1Hnucleus in an NMR spectrometer that operates at 300 MHz.

The 1H NMR spectrum of 2-propane-1-ol is shown here. Indicate the protons in the molecule that are responsible for each of the signals in the spectrum.
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