EBK ORGANIC CHEMISTRY
EBK ORGANIC CHEMISTRY
6th Edition
ISBN: 9781260475685
Author: SMITH
Publisher: MCGRAW-HILL HIGHER EDUCATION
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Chapter 12C.6, Problem 15P
Interpretation Introduction

(a)

Interpretation: The number of peaks for each indicated proton is to be predicted.

Concept introduction: The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. Protons which are present in the same chemical environment that is between the same group of atoms are known as chemically equivalent protons and in 1HNMR all chemically equivalent proton generates one signal or one peak, whereas non-equivalent proton generates different signals.

Interpretation Introduction

(b)

Interpretation: The number of peaks for each indicated proton is to be predicted.

Concept introduction: The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. Protons which are present in the same chemical environment that is between the same group of atoms are known as chemically equivalent protons and in 1HNMR all chemically equivalent proton generates one signal or one peak, whereas non-equivalent proton generates different signals.

Interpretation Introduction

(c)

Interpretation: The number of peaks for each indicated proton is to be predicted.

Concept introduction: The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. Protons which are present in the same chemical environment that is between the same group of atoms are known as chemically equivalent protons and in 1HNMR all chemically equivalent proton generates one signal or one peak, whereas non-equivalent proton generates different signals.

Interpretation Introduction

(d)

Interpretation: The number of peaks for each indicated proton is to be predicted.

Concept introduction: The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. Protons which are present in the same chemical environment that is between the same group of atoms are known as chemically equivalent protons and in 1HNMR all chemically equivalent proton generates one signal or one peak, whereas non-equivalent proton generates different signals.

Interpretation Introduction

(e)

Interpretation: The number of peaks for each indicated proton is to be predicted.

Concept introduction: The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. Protons which are present in the same chemical environment that is between the same group of atoms are known as chemically equivalent protons and in 1HNMR all chemically equivalent proton generates one signal or one peak, whereas non-equivalent proton generates different signals.

Interpretation Introduction

(f)

Interpretation: The number of peaks for each indicated proton is to be predicted.

Concept introduction: The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. Protons which are present in the same chemical environment that is between the same group of atoms are known as chemically equivalent protons and in 1HNMR all chemically equivalent proton generates one signal or one peak, whereas non-equivalent proton generates different signals.

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Chapter 12C Solutions

EBK ORGANIC CHEMISTRY

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