EBK GET READY FOR ORGANIC CHEMISTRY
EBK GET READY FOR ORGANIC CHEMISTRY
2nd Edition
ISBN: 9780100576377
Author: KARTY
Publisher: YUZU
Question
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Chapter E, Problem E.16P
Interpretation Introduction

(a)

Interpretation:

The complete IUPAC name of the given molecule is to be written.

Concept introduction:

Both ketones and aldehydes contain a C=O bond, the carbonyl group. Ketones and aldehydes require adding a suffix to the IUPAC name according to Table E-1.

The main chain or ring is the one that contains the highest-priority functional group. The next step is to number the main chain or ring such that the carbon atoms involving the highest-priority functional group receive the lowest possible numbers. The locator number for the highest-priority functional group is written immediately before the suffix, unless needed. All other functional groups in the molecule are treated as substituents and appear in the name as a prefix. Prefixes such as di, tri, tetra, etc., are used to indicate the number of identical substituents attached. The substituents are named in the alphabetical order. A locator number is added for the ketone but not for the aldehyde.

For a molecule that contains only an aldehyde as a functional group requires dropping the final e and adding the al suffix.

For a molecule containing both an aldehyde and a ketone as functional groups, a locator number is added for the ketone but not for the aldehyde.

For a molecule containing more than one aldehyde or ketones functional groups, the e in ane is retained.

Note that for a cyclic aldehyde, the C=O bond cannot be a part of the ring and is named as cycloalkanecarbaldehyde.

Interpretation Introduction

(b)

Interpretation:

The complete IUPAC name of the given molecule is to be written.

Concept introduction:

Both ketones and aldehydes contain a C=O bond, the carbonyl group. Ketones and aldehydes require adding a suffix to the IUPAC name according to Table E-1.

The main chain or ring is the one that contains the highest-priority functional group. The next step is to number the main chain or ring such that the carbon atoms involving the highest-priority functional group receive the lowest possible numbers. The locator number for the highest-priority functional group is written immediately before the suffix, unless needed. All other functional groups in the molecule are treated as substituents and appear in the name as a prefix. Prefixes such as di, tri, tetra, etc., are used to indicate the number of identical substituents attached. The substituents are named in the alphabetical order. A locator number is added for the ketone but not for the aldehyde.

For a molecule that contains only an aldehyde as a functional group requires dropping the final e and adding the al suffix.

For a molecule containing both an aldehyde and a ketone as functional groups, a locator number is added for the ketone but not for the aldehyde.

For a molecule containing more than one aldehyde or ketones functional groups, the e in ane is retained.

Note that for a cyclic aldehyde, the C=O bond cannot be a part of the ring and is named as cycloalkanecarbaldehyde.

Interpretation Introduction

(c)

Interpretation:

The complete IUPAC name of the given molecule is to be written.

Concept introduction:

Both ketones and aldehydes contain a C=O bond, the carbonyl group. Ketones and aldehydes require adding a suffix to the IUPAC name according to Table E-1.

The main chain or ring is the one that contains the highest-priority functional group. The next step is to number the main chain or ring such that the carbon atoms involving the highest-priority functional group receive the lowest possible numbers. The locator number for the highest-priority functional group is written immediately before the suffix, unless needed. All other functional groups in the molecule are treated as substituents and appear in the name as a prefix. Prefixes such as di, tri, tetra, etc., are used to indicate the number of identical substituents attached. The substituents are named in the alphabetical order. A locator number is added for the ketone but not for the aldehyde.

For a molecule that contains only an aldehyde as a functional group requires dropping the final e and adding the al suffix.

For a molecule containing both an aldehyde and a ketone as functional groups, a locator number is added for the ketone but not for the aldehyde.

For a molecule containing more than one aldehyde or ketones functional groups, the e in ane is retained.

Note that for a cyclic aldehyde, the C=O bond cannot be a part of the ring and is named as cycloalkanecarbaldehyde.

Interpretation Introduction

(d)

Interpretation:

The complete IUPAC name of the given molecule is to be written.

Concept introduction:

Both ketones and aldehydes contain a C=O bond, the carbonyl group. Ketones and aldehydes require adding a suffix to the IUPAC name according to Table E-1.

The main chain or ring is the one that contains the highest-priority functional group. The next step is to number the main chain or ring such that the carbon atoms involving the highest-priority functional group receive the lowest possible numbers. The locator number for the highest-priority functional group is written immediately before the suffix, unless needed. All other functional groups in the molecule are treated as substituents and appear in the name as a prefix. Prefixes such as di, tri, tetra, etc., are used to indicate the number of identical substituents attached. The substituents are named in the alphabetical order. A locator number is added for the ketone but not for the aldehyde.

For a molecule that contains only an aldehyde as a functional group requires dropping the final e and adding the al suffix.

For a molecule containing both an aldehyde and a ketone as functional groups, a locator number is added for the ketone but not for the aldehyde.

For a molecule containing more than one aldehyde or ketones functional groups, the e in ane is retained.

Note that for a cyclic aldehyde, the C=O bond cannot be a part of the ring and is named as cycloalkanecarbaldehyde.

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Chapter E Solutions

EBK GET READY FOR ORGANIC CHEMISTRY

Ch. E - Prob. E.1PCh. E - Prob. E.2PCh. E - Prob. E.3PCh. E - Prob. E.4PCh. E - Prob. E.5PCh. E - Prob. E.6PCh. E - Prob. E.7PCh. E - Prob. E.8PCh. E - Prob. E.9PCh. E - Prob. E.10P
Ch. E - Prob. E.11PCh. E - Prob. E.12PCh. E - Prob. E.13PCh. E - Prob. E.14PCh. E - Prob. E.15PCh. E - Prob. E.16PCh. E - Prob. E.17PCh. E - Prob. E.18PCh. E - Prob. E.19PCh. E - Prob. E.20PCh. E - Prob. E.21PCh. E - Prob. E.22PCh. E - Prob. E.23PCh. E - Prob. E.24PCh. E - Prob. E.25PCh. E - Prob. E.26PCh. E - Prob. E.27PCh. E - Prob. E.28PCh. E - Prob. E.29PCh. E - Prob. E.30PCh. E - Prob. E.31PCh. E - Prob. E.32PCh. E - Prob. E.33PCh. E - Prob. E.34PCh. E - Prob. E.35PCh. E - Prob. E.36PCh. E - Prob. E.37PCh. E - Prob. E.38PCh. E - Prob. E.39PCh. E - Prob. E.40PCh. E - Prob. E.41PCh. E - Prob. E.42PCh. E - Prob. E.43PCh. E - Prob. E.44PCh. E - Prob. E.45PCh. E - Prob. E.46PCh. E - Prob. E.47PCh. E - Prob. E.48P
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