ORGANIC CHEMISTRY W/ALEKS
ORGANIC CHEMISTRY W/ALEKS
6th Edition
ISBN: 9781264905430
Author: SMITH
Publisher: MCG CUSTOM
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Chapter 12C.7, Problem 18P
Interpretation Introduction

(a)

Interpretation: The number of peaks present in the given NMR signal of labeled proton is to be calculated.

Concept introduction: In NMR spectrum, peaks are known as resonances, lines or absorptions. The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. In 1HNMR all chemically equivalent protons generates one signal or one peak, whereas non-equivalent proton generates different signals. The number of peaks is calculated by the formula,

P=n+1

Interpretation Introduction

(b)

Interpretation: The number of peaks present in the given NMR signal of labeled proton is to be calculated.

Concept introduction: In NMR spectrum, peaks are known as resonances, lines or absorptions. The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. In 1HNMR all chemically equivalent protons generates one signal or one peak, whereas non-equivalent proton generates different signals. The number of peaks is calculated by the formula,

P=n+1

Interpretation Introduction

(c)

Interpretation: The number of peaks present in the given NMR signal of labeled proton is to be calculated.

Concept introduction: In NMR spectrum, peaks are known as resonances, lines or absorptions. The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. In 1HNMR all chemically equivalent protons generates one signal or one peak, whereas non-equivalent proton generates different signals. The number of peaks is calculated by the formula,

P=n+1

Interpretation Introduction

(d)

Interpretation: The number of peaks present in the given NMR signal of labeled proton is to be calculated.

Concept introduction: In NMR spectrum, peaks are known as resonances, lines or absorptions. The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. In 1HNMR all chemically equivalent protons generates one signal or one peak, whereas non-equivalent proton generates different signals. The number of peaks is calculated by the formula,

P=n+1

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How many 1H NMR signals does each compound give?
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# of NMR peaks each has?

Chapter 12C Solutions

ORGANIC CHEMISTRY W/ALEKS

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