The similarities and differences that could be expected between proton NMR spectrums of compounds A and B are to be determined. The effect of addition of D 2 O on spectrum of each of the compound is to be explained. Concept introduction: The compounds with similar attachments in aromatic ring have same chemical shift and splitting pattern for aromatic protons in their 1 H NMR spectrum. The substitution at alkene carbons alters the splitting pattern of alkene protons. The intensities of the O − H signal decreases dramatically, or disappears entirely by addition because of the O − H proton exchange with D as O − D .

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Need help to describe the proton NMR spectra to distinguish between pair.

Answer 1

Question

Chapter 16, Problem 16.23P

Interpretation Introduction

Interpretation:

The similarities and differences that could be expected between proton NMR spectrums of compounds A and B are to be determined. The effect of addition of D2O on spectrum of each of the compound is to be explained.

Concept introduction:

The compounds with similar attachments in aromatic ring have same chemical shift and splitting pattern for aromatic protons in their 1H NMR spectrum. The substitution at alkene carbons alters the splitting pattern of alkene protons. The intensities of the O−H signal decreases dramatically, or disappears entirely by addition because of the O−H proton exchange with D as O−D.

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Need help to describe the proton NMR spectra to distinguish between pair.

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Answer 2

Question

Chapter 16, Problem 16.23P

Interpretation Introduction

Interpretation:

The similarities and differences that could be expected between proton NMR spectrums of compounds A and B are to be determined. The effect of addition of D2O on spectrum of each of the compound is to be explained.

Concept introduction:

The compounds with similar attachments in aromatic ring have same chemical shift and splitting pattern for aromatic protons in their 1H NMR spectrum. The substitution at alkene carbons alters the splitting pattern of alkene protons. The intensities of the O−H signal decreases dramatically, or disappears entirely by addition because of the O−H proton exchange with D as O−D.

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Answer 3

Question

Chapter 16, Problem 16.23P

Interpretation Introduction

Interpretation:

The similarities and differences that could be expected between proton NMR spectrums of compounds A and B are to be determined. The effect of addition of D2O on spectrum of each of the compound is to be explained.

Concept introduction:

The compounds with similar attachments in aromatic ring have same chemical shift and splitting pattern for aromatic protons in their 1H NMR spectrum. The substitution at alkene carbons alters the splitting pattern of alkene protons. The intensities of the O−H signal decreases dramatically, or disappears entirely by addition because of the O−H proton exchange with D as O−D.

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Answer 4

Question

Chapter 16, Problem 16.23P

Interpretation Introduction

Interpretation:

The similarities and differences that could be expected between proton NMR spectrums of compounds A and B are to be determined. The effect of addition of D2O on spectrum of each of the compound is to be explained.

Concept introduction:

The compounds with similar attachments in aromatic ring have same chemical shift and splitting pattern for aromatic protons in their 1H NMR spectrum. The substitution at alkene carbons alters the splitting pattern of alkene protons. The intensities of the O−H signal decreases dramatically, or disappears entirely by addition because of the O−H proton exchange with D as O−D.

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Answer 5

Chapter 16, Problem 16.23P

Interpretation Introduction

Interpretation:

The similarities and differences that could be expected between proton NMR spectrums of compounds A and B are to be determined. The effect of addition of D2O on spectrum of each of the compound is to be explained.

Concept introduction:

The compounds with similar attachments in aromatic ring have same chemical shift and splitting pattern for aromatic protons in their 1H NMR spectrum. The substitution at alkene carbons alters the splitting pattern of alkene protons. The intensities of the O−H signal decreases dramatically, or disappears entirely by addition because of the O−H proton exchange with D as O−D.

Answer 6

Chapter 16, Problem 16.23P

Interpretation Introduction

Interpretation:

The similarities and differences that could be expected between proton NMR spectrums of compounds A and B are to be determined. The effect of addition of D2O on spectrum of each of the compound is to be explained.

Concept introduction:

The compounds with similar attachments in aromatic ring have same chemical shift and splitting pattern for aromatic protons in their 1H NMR spectrum. The substitution at alkene carbons alters the splitting pattern of alkene protons. The intensities of the O−H signal decreases dramatically, or disappears entirely by addition because of the O−H proton exchange with D as O−D.

Answer 7

Chapter 16, Problem 16.23P

Interpretation Introduction

Interpretation:

The similarities and differences that could be expected between proton NMR spectrums of compounds A and B are to be determined. The effect of addition of D2O on spectrum of each of the compound is to be explained.

Concept introduction:

The compounds with similar attachments in aromatic ring have same chemical shift and splitting pattern for aromatic protons in their 1H NMR spectrum. The substitution at alkene carbons alters the splitting pattern of alkene protons. The intensities of the O−H signal decreases dramatically, or disappears entirely by addition because of the O−H proton exchange with D as O−D.

Answer 8

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Answer 19

Ch. 16 - Prob. 16.1P Ch. 16 - Prob. 16.2P Ch. 16 - Prob. 16.3P Ch. 16 - Prob. 16.4P Ch. 16 - Prob. 16.5P Ch. 16 - Prob. 16.6P Ch. 16 - Prob. 16.7P Ch. 16 - Prob. 16.8P Ch. 16 - Prob. 16.9P Ch. 16 - Prob. 16.10P

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Chapter 16 Solutions