EBK ORGANIC CHEMISTRY
EBK ORGANIC CHEMISTRY
9th Edition
ISBN: 8220100591310
Author: McMurry
Publisher: CENGAGE L
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NMR Spectroscopy
NMR stands for Nuclear Magnetic Resonance in which the study of different molecules is done based on the interaction of radiofrequency electromagnetic radiations with the nuclei of molecules placed in a strong magnetic field. A precise study of spectra o…
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Textbook Question
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Chapter 13.SE, Problem 55GP

Propose structures for compounds that fit the following 1H NMR data:

(a) C4H6Cl2

2.18 δ (3 H, singlet)

4.16 δ (2 H, doublet, J=7 Hz)

5.71 δ (1 H, triplet, J=7 Hz)

(b) C10H14

1.30 δ (9 H, singlet)

7.30 δ (5 H, singlet)

(c) C4H7BrO

2.11 δ (3 H, singlet)

3.52 δ (2 H, triplet, J=6 Hz)

4.40 δ (2 H, triplet, J=6 Hz)

(d) C9H11Br

2.15 δ (2 H, quintet, J=7 Hz)

2.75 δ (2 H, triplet, J=7 Hz)

3.38 δ (2 H, triplet, J=7 Hz)

7.22 δ (5 H, singlet)

Expert Solution
Check Mark
Interpretation Introduction

a)

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 1

Interpretation:

The proposed structure of the compound to be identified for the given 1HNMR spectrum.

Concept introduction:

HDI calculation:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 2

Where

C represent number of carbons.

N represent number of nitrogens.

H represent number of hydrogens.

X represent number of halogens.

Chemical shift: The frequency of the proton signal in the spectrum with reference to the standard compound which may be TMS(Tetramethylsilane) shows signal at 0 ppm(parts per million).

Multiplicity: The number of peaks on the each signal in NMR spectrum is defined as multiplicity; the multiplicity of each signal indicates the neighboring protons. It is generated by coupling of the subjected protons with the neighboring protons (both subjected and neighbor protons are to be chemically not equivalent) separated by either two or three sigma bonds.

Rule: Multiplicity of each signal is calculated using (n+1) rule only when the neighboring protons are chemically equivalent to each other.

(n+1)

where

n indicates number of neighboring protons

Integration value (I): The integration value at the bottom of the 1HNMR spectrum represents the number of protons giving rise to the signal.

To find:

The structure of the compound to be identified for the given molecular formula and 1HNMR spectrum.

Answer to Problem 55GP

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 3

Explanation of Solution

Calculate HDI value:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 4

The HDI calculation confirms the presence of an aliphatic ring and double bond

Adjust the relative integration with the number of protons from the molecular formula.

The total number of protons in the molecular formula C10H14 is 6.

Interpret the given information.

Given information:

Three signals with multiplicity and integration values.

2.18ppm(3H, singlet)

4.16ppm(2H, doublet, J=7HZ)

5.71ppm(1H , triplet, J=7HZ)

The HDI value confirms the compound has either a ring or a double bond (one level of unsaturation). The total integration value (3+2+1=6 protons) is also an exact value with the protons of the molecular formula.

A signal at 2.18ppm with integration of 3H’s represents methyl groups which are chemically equivalent having one neighboring proton indicates the characteristic pattern of isopropyl group.

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 5

A signal with integration of 2H’s represent a methylene group appears at 4.16ppm rather 5.17ppm, consistent with the value of protons which present at alpha position to vinyl group (C=O) and accounts for the one degree of unsaturation.

The overall predicted structure is:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 6

The methyl groups can be interchanged via no reflectional symmetry and the compound gives rise to totally three signals in spectrum.

Conclusion

The structure of the compound is identified using the details of spectrum and DHI calculation.

Expert Solution
Check Mark
Interpretation Introduction

b)

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 7

Interpretation:

The proposed structure of the compound to be identified for the given 1HNMR spectrum.

Concept introduction:

HDI calculation:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 8

Where

C represent number of carbons.

N represent number of nitrogens.

H represent number of hydrogens.

X represent number of halogens.

Chemical shift: The frequency of the proton signal in the spectrum with reference to the standard compound which may be TMS(Tetramethylsilane) shows signal at 0 ppm(parts per million).

Multiplicity: The number of peaks on the each signal in NMR spectrum is defined as multiplicity; the multiplicity of each signal indicates the neighboring protons. It is generated by coupling of the subjected protons with the neighboring protons (both subjected and neighbor protons are to be chemically not equivalent) separated by either two or three sigma bonds.

Rule: Multiplicity of each signal is calculated using (n+1) rule only when the neighboring protons are chemically equivalent to each other.

(n+1)

where

n indicates number of neighboring protons

Integration value (I): The integration value at the bottom of the 1HNMR spectrum represents the number of protons giving rise to the signal.

To find:

The structure of the compound to be identified for the given molecular formula and 1HNMR spectrum.

Answer to Problem 55GP

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 9

Explanation of Solution

Calculate HDI value:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 10

The HDI calculation confirms the presence of an aliphatic ring and double bond

Adjust the relative integration with the number of protons from the molecular formula.

The total number of protons in the molecular formula C10H14 is 14.

Interpret the given information.

Given information:

Three signals with multiplicity and integration values.

1.30ppm(9H, singlet)

7.30ppm(5H, singlet)

The HDI value confirms the compound has either a ring or a double bond (four level of unsaturation). The total integration value (9+5=14 protons) is also an exact value with the protons of the molecular formula.

A signal at 1.30ppm with integration of 9H’s represents methyl groups which are chemically equivalent having one neighboring proton indicates the characteristic pattern of isopropyl group.

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 11

A signal with integration of 5H’s represent a benzene appears at 7.30ppm which present at aromatic group and accounts for the four degree of unsaturation.

The overall predicted structure is:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 12

The methyl groups can be interchanged via reflectional symmetry and the compound gives rise to totally two signals in 1HNMR spectrum.

Conclusion

The structure of the compound is identified using the details of 1HNMR spectrum and DHI calculation.

Expert Solution
Check Mark
Interpretation Introduction

c)

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 13

Interpretation:

The proposed structure of the compound to be identified for the given 1HNMR spectrum.

Concept introduction:

HDI calculation:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 14

Where

C represent number of carbons.

N represent number of nitrogens.

H represent number of hydrogens.

X represent number of halogens.

Chemical shift: The frequency of the proton signal in the spectrum with reference to the standard compound which may be TMS(Tetramethylsilane) shows signal at 0 ppm(parts per million).

Multiplicity: The number of peaks on the each signal in NMR spectrum is defined as multiplicity; the multiplicity of each signal indicates the neighboring protons. It is generated by coupling of the subjected protons with the neighboring protons (both subjected and neighbor protons are to be chemically not equivalent) separated by either two or three sigma bonds.

Rule: Multiplicity of each signal is calculated using (n+1) rule only when the neighboring protons are chemically equivalent to each other.

(n+1)

where

n indicates number of neighboring protons

Integration value (I): The integration value at the bottom of the spectrum represents the number of protons giving rise to the signal.

To find:

The structure of the compound to be identified for the given molecular formula and 1HNMR spectrum.

Answer to Problem 55GP

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 15

Explanation of Solution

Calculate HDI value:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 16

The HDI calculation confirms the presence of an aliphatic ring and double bond

Adjust the relative integration with the number of protons from the molecular formula.

The total number of protons in the molecular formula C4H7Bro is 7.

Interpret the given information.

Given information:

Three signals with multiplicity and integration values.

2.11ppm(3H, singlet)

3.52ppm(2H, triplet, J=6HZ)

4.40ppm(2H, triplet, J=6HZ)

The HDI value confirms the compound has either a ring or a double bond (one level of unsaturation). The total integration value (3+2+2=7 protons) is also an exact value with the protons of the molecular formula.

A signal at 2.11ppm with integration of 3H’s represents methyl groups which are chemically equivalent having one neighboring proton indicates the characteristic pattern of isopropyl group.

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 17

A two signal with integration of 2H’s represent a methylene group appears at 3.52ppm rather 4.40ppm, consistent with the value of protons which present at alpha position to carbonyl group(C=O) and accounts for the one degree of unsaturation.

The overall predicted structure is:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 18

The methyl groups can be interchanged via no reflectional symmetry and the compound gives rise to totally three signals in spectrum.

Conclusion

The structure of the compound is identified using the details of 1HNMR spectrum and DHI calculation.

Expert Solution
Check Mark
Interpretation Introduction

d)

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 19

Interpretation:

The proposed structure of the compound to be identified for the given 1HNMR spectrum.

Concept introduction:

HDI calculation:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 20

Where

C represent number of carbons.

N represent number of nitrogens.

H represent number of hydrogens.

X represent number of halogens.

Chemical shift: The frequency of the proton signal in the spectrum with reference to the standard compound which may be TMS(Tetramethylsilane) shows signal at 0 ppm(parts per million).

Multiplicity: The number of peaks on the each signal in NMR spectrum is defined as multiplicity; the multiplicity of each signal indicates the neighboring protons. It is generated by coupling of the subjected protons with the neighboring protons (both subjected and neighbor protons are to be chemically not equivalent) separated by either two or three sigma bonds.

Rule: Multiplicity of each signal is calculated using (n+1) rule only when the neighboring protons are chemically equivalent to each other.

(n+1)

where

n indicates number of neighboring protons

Integration value (I): The integration value at the bottom of the spectrum represents the number of protons giving rise to the signal.

To find:

The structure of the compound to be identified for the given molecular formula and 1HNMR spectrum.

Answer to Problem 55GP

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 21

Explanation of Solution

Calculate HDI value:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 22

The HDI calculation confirms the presence of an aliphatic ring and double bond

Adjust the relative integration with the number of protons from the molecular formula.

The total number of protons in the molecular formula C9H11Br is 11.

Interpret the given information.

Given information:

Three signals with multiplicity and integration values.

2.15ppm(2H, quintet, J=7HZ)

2.75ppm(2H, triplet, J=7HZ)

3.38ppm(2H, triplet, J=7HZ)

7.22ppm(5H, singlet)

The HDI value confirms the compound has either a ring or a double bond (four level of unsaturation). The total integration value (2+2+2+5=11 protons) is also an exact value with the protons of the molecular formula.

A signal at 2.15ppm with integration of 2H’s represents three methyl groups which are chemically equivalent having one neighboring proton indicates the characteristic pattern of alkyl group.

A signal with integration of 2H’s represent benzylic appears at 2.75ppm which present at aromatic group

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 23

A signal with integration of 5H’s represent benzylic appears at 7.30ppm which present at aromatic group and accounts for the four degree of unsaturation.

The overall predicted structure is:

EBK ORGANIC CHEMISTRY, Chapter 13.SE, Problem 55GP , additional homework tip 24

The methyl groups can be interchanged via reflectional symmetry and the compound gives rise to totally four signals in spectrum.

Conclusion

The structure of the compound is identified using the details of 1HNMR spectrum and DHI calculation.

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Chapter 13 Solutions

EBK ORGANIC CHEMISTRY

Ch. 13.1 - Prob. 1PCh. 13.1 - Prob. 2PCh. 13.2 - Prob. 3PCh. 13.3 - The following 1H NMR peaks were recorded on a...Ch. 13.3 - When the 1Η NMR spectrum of acetone, CH3COCH3, is...Ch. 13.4 - Each of the following compounds has a single 1H...Ch. 13.4 - Identify the different types of protons in the...Ch. 13.5 - How many peaks would you expect in the 1H NMR...Ch. 13.6 - Predict the splitting patterns you would expect...Ch. 13.6 - Draw structures for compounds that meet the...
Ch. 13.6 - The integrated 1H NMR spectrum of a compound of...Ch. 13.7 - Identify the indicated sets of protons as...Ch. 13.7 - How many kinds of electronically nonequivalent...Ch. 13.7 - How many absorptions would you expect (S)-malate,...Ch. 13.8 - 3-Bromo-1-phenyl-1-propene shows a complex NMR...Ch. 13.9 - How could you use 1H NMR to determine the...Ch. 13.11 - Prob. 17PCh. 13.11 - Propose structures for compounds that fit the...Ch. 13.11 - Prob. 19PCh. 13.12 - Prob. 20PCh. 13.12 - Prob. 21PCh. 13.12 - Prob. 22PCh. 13.13 - Prob. 23PCh. 13.SE - Into how many peaks would you expect the 1H NMR...Ch. 13.SE - How many absorptions would you expect the...Ch. 13.SE - Sketch what you might expect the 1H and 13C NMR...Ch. 13.SE - How many electronically nonequivalent kinds of...Ch. 13.SE - Identify the indicated protons in the following...Ch. 13.SE - Prob. 29APCh. 13.SE - Prob. 30APCh. 13.SE - When measured on a spectrometer operating at 200...Ch. 13.SE - Prob. 32APCh. 13.SE - Prob. 33APCh. 13.SE - How many types of nonequivalent protons are...Ch. 13.SE - The following compounds all show a single line in...Ch. 13.SE - Prob. 36APCh. 13.SE - Propose structures for compounds with the...Ch. 13.SE - Predict the splitting pattern for each kind of...Ch. 13.SE - Predict the splitting pattern for each kind of...Ch. 13.SE - Identify the indicated sets of protons as...Ch. 13.SE - Identify the indicated sets of protons as...Ch. 13.SE - The acid-catalyzed dehydration of...Ch. 13.SE - How could you use 1H NMR to distinguish between...Ch. 13.SE - Propose structures for compounds that fit the...Ch. 13.SE - Propose structures for the two compounds whose 1H...Ch. 13.SE - Prob. 46APCh. 13.SE - How many absorptions would you expect to observe...Ch. 13.SE - Prob. 48APCh. 13.SE - How could you use 1H and 13C NMR to help...Ch. 13.SE - How could you use 1H NMR, 13C NMR, and IR...Ch. 13.SE - Assign as many resonances as you can to specific...Ch. 13.SE - Assume that you have a compound with the formula...Ch. 13.SE - The compound whose 1H NMR spectrum is shown has...Ch. 13.SE - The compound whose 1H NMR spectrum is shown has...Ch. 13.SE - Propose structures for compounds that fit the...Ch. 13.SE - Long-range coupling between protons more than two...Ch. 13.SE - The 1H and 13C NMR spectra of compound A, C8H9Br,...Ch. 13.SE - Propose structures for the three compounds whose...Ch. 13.SE - The mass spectrum and 13C NMR spectrum of a...Ch. 13.SE - Compound A, a hydrocarbon with M+=96 in its mass...Ch. 13.SE - Propose a structure for compound C, which has...Ch. 13.SE - Prob. 62GPCh. 13.SE - Propose a structure for compound E, C7H12O2, which...Ch. 13.SE - Compound F, a hydrocarbon with M+=96 in its mass...Ch. 13.SE - 3-Methyl-2-butanol has five signals in its 13C NMR...Ch. 13.SE - A 13C NMR spectrum of commercially available...Ch. 13.SE - Carboxylic acids (RCO2H) react with alcohols (ROH)...Ch. 13.SE - Prob. 68GPCh. 13.SE - The proton NMR spectrum is shown for a compound...Ch. 13.SE - The proton NMR spectrum of a compound with the...Ch. 13.SE - The proton NMR spectrum is shown for a compound...
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