The number of expected 13 C NMR signals for the given molecule are to be given. Concept introduction: 13 C NMR provides valuable information about carbon skeleton. Each signal in the 13 C NMR equals to the number of distinct carbon atoms in the given unknown. In most of the 13 C NMR spectra, almost every time all the signals would appear as singlets. The saturated carbon atoms appear in the range δ 0-35 ppm if it is a simple alkane fragment. If it is attached to any electronegative element such as halogens or nitrogen, then the range is δ 25-70 ppm . Triple bonded carbon atoms range from δ 65-85 ppm . Alkene carbons range from δ 105-150 ppm . Carbonyl carbon atoms in acids, esters, amides, and anhydrides range from δ 120-185 ppm . Carbonyl carbons in aldehydes and ketones range from δ 190-220 ppm . In order to determine the number of chemically distinct carbon atoms in a molecule, we can apply the chemical distinction test by substituting an imaginary atom X for each carbon atom. Then, we determine the relationship among those structures. If they happen to be constitutional isomers, then the carbon atoms are dinstict. If they happen to be identical, then the carbon atoms are identical.

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Definition Definition Organic compounds that have a carbonyl group, C=O, as their functional group. The carbonyl group in aldehydes is placed at the end of the molecular structure, which means the C=O is attached to one hydrogen atom and an alkyl group or a benzene ring. Just like all the other homologous series in organic chemistry, the naming of aldehydes uses the suffix “-al”. The general molecular formula is C n H 2n O.

Chapter 16, Problem 16.27P

Interpretation Introduction

Interpretation:

The number of expected 13C NMR signals for the given molecule are to be given.

Concept introduction:

13C NMR provides valuable information about carbon skeleton. Each signal in the 13C NMR equals to the number of distinct carbon atoms in the given unknown. In most of the 13C NMR spectra, almost every time all the signals would appear as singlets. The saturated carbon atoms appear in the range δ 0-35 ppm if it is a simple alkane fragment. If it is attached to any electronegative element such as halogens or nitrogen, then the range is δ 25-70 ppm. Triple bonded carbon atoms range from δ 65-85 ppm. Alkene carbons range from δ 105-150 ppm. Carbonyl carbon atoms in acids, esters, amides, and anhydrides range from δ 120-185 ppm. Carbonyl carbons in aldehydes and ketones range from δ 190-220 ppm.

In order to determine the number of chemically distinct carbon atoms in a molecule, we can apply the chemical distinction test by substituting an imaginary atom X for each carbon atom. Then, we determine the relationship among those structures. If they happen to be constitutional isomers, then the carbon atoms are dinstict. If they happen to be identical, then the carbon atoms are identical.

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Answer 2

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Definition Definition Organic compounds that have a carbonyl group, C=O, as their functional group. The carbonyl group in aldehydes is placed at the end of the molecular structure, which means the C=O is attached to one hydrogen atom and an alkyl group or a benzene ring. Just like all the other homologous series in organic chemistry, the naming of aldehydes uses the suffix “-al”. The general molecular formula is C n H 2n O.

Chapter 16, Problem 16.27P

Interpretation Introduction

Interpretation:

The number of expected 13C NMR signals for the given molecule are to be given.

Concept introduction:

13C NMR provides valuable information about carbon skeleton. Each signal in the 13C NMR equals to the number of distinct carbon atoms in the given unknown. In most of the 13C NMR spectra, almost every time all the signals would appear as singlets. The saturated carbon atoms appear in the range δ 0-35 ppm if it is a simple alkane fragment. If it is attached to any electronegative element such as halogens or nitrogen, then the range is δ 25-70 ppm. Triple bonded carbon atoms range from δ 65-85 ppm. Alkene carbons range from δ 105-150 ppm. Carbonyl carbon atoms in acids, esters, amides, and anhydrides range from δ 120-185 ppm. Carbonyl carbons in aldehydes and ketones range from δ 190-220 ppm.

In order to determine the number of chemically distinct carbon atoms in a molecule, we can apply the chemical distinction test by substituting an imaginary atom X for each carbon atom. Then, we determine the relationship among those structures. If they happen to be constitutional isomers, then the carbon atoms are dinstict. If they happen to be identical, then the carbon atoms are identical.

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Answer 3

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Definition Definition Organic compounds that have a carbonyl group, C=O, as their functional group. The carbonyl group in aldehydes is placed at the end of the molecular structure, which means the C=O is attached to one hydrogen atom and an alkyl group or a benzene ring. Just like all the other homologous series in organic chemistry, the naming of aldehydes uses the suffix “-al”. The general molecular formula is C n H 2n O.

Chapter 16, Problem 16.27P

Interpretation Introduction

Interpretation:

The number of expected 13C NMR signals for the given molecule are to be given.

Concept introduction:

13C NMR provides valuable information about carbon skeleton. Each signal in the 13C NMR equals to the number of distinct carbon atoms in the given unknown. In most of the 13C NMR spectra, almost every time all the signals would appear as singlets. The saturated carbon atoms appear in the range δ 0-35 ppm if it is a simple alkane fragment. If it is attached to any electronegative element such as halogens or nitrogen, then the range is δ 25-70 ppm. Triple bonded carbon atoms range from δ 65-85 ppm. Alkene carbons range from δ 105-150 ppm. Carbonyl carbon atoms in acids, esters, amides, and anhydrides range from δ 120-185 ppm. Carbonyl carbons in aldehydes and ketones range from δ 190-220 ppm.

In order to determine the number of chemically distinct carbon atoms in a molecule, we can apply the chemical distinction test by substituting an imaginary atom X for each carbon atom. Then, we determine the relationship among those structures. If they happen to be constitutional isomers, then the carbon atoms are dinstict. If they happen to be identical, then the carbon atoms are identical.

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Answer 4

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Definition Definition Organic compounds that have a carbonyl group, C=O, as their functional group. The carbonyl group in aldehydes is placed at the end of the molecular structure, which means the C=O is attached to one hydrogen atom and an alkyl group or a benzene ring. Just like all the other homologous series in organic chemistry, the naming of aldehydes uses the suffix “-al”. The general molecular formula is C n H 2n O.

Chapter 16, Problem 16.27P

Interpretation Introduction