Get Ready for Organic Chemistry
Get Ready for Organic Chemistry
2nd Edition
ISBN: 9780321774125
Author: KARTY, Joel
Publisher: PEARSON
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Concept explainers

Introduction to Organic Chemistry
The field of chemistry which deals with the studies of reactions, structures, and properties of organic compounds that comprise carbon bonded through covalent bonding is organic chemistry. The studies regarding the structure of organic compounds could be…
Vinyl Group
Vinyl group is the name given to the functional group of -CH=CH2. It can be seen as an ethene molecule with one less hydrogen in number. Hence it is also called as ethenyl group at times.
Straight Chain Hydrocarbons
The requirement to identify each compound needs a richer number of words than informative prefixes like n and iso. The identification of organic molecules is made easier by the use of systematic nomenclature schemes. The organic chemistry nomenclature ha…
Unsaturated Hydrocarbon
Following are few examples of alkenes with their general molecular as well as their structural formulas:
Conjugated Compounds in Organic Chemistry
The delocalization of electrons in a molecule is called conjugation in organic chemistry. This delocalisation process of electrons leads to the shortenings or elongations of chemical bonds, but at the same time it causes changes in the chemical propertie…
Alpha Carbon And Alpha Protons
The carbon directly attached to the functional group in an organic molecule is referred to as the alpha carbon and the hydrogen attached to an alpha carbon are termed as the alpha hydrogens or alpha protons. These alpha carbon atoms and alpha hydrogen at…
Question
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Chapter C, Problem C.34P
Interpretation Introduction

(a)

Interpretation:

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

Concept introduction:

When assigning priorities to substituents, the atom having the greater atomic number has a higher priority. In the case of comparison between isotopes, the one having the greater atomic mass gets the higher priority. If the substituents are attached by the same atom, then the set of atoms one bond away from the point of attachment is compared. In each set, the highest priority atoms are compared. If the sets of atoms one bond away from the point of attachment are identical, then the sets of atoms one additional bond away from the point of attachment are compared. If the higher priority groups attached to the double bonded carbon atoms are on the same side of the double bond, the alkene is assigned Z configuration. If the higher priority groups attached to the double bonded carbon atoms are on the opposite side of the double bond, the alkene is assigned E configuration. When more than one double bond is present, each is assigned E or Z configuration, and the location of each double bond appears immediately before the E or Z designation.

Interpretation Introduction

(b)

Interpretation:

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

Concept introduction:

When assigning priorities to substituents, the atom having the greater atomic number has a higher priority. In the case of comparison between isotopes, the one having the greater atomic mass gets the higher priority. If the substituents are attached by the same atom, then the set of atoms one bond away from the point of attachment is compared. In each set, the highest priority atoms are compared. If the sets of atoms one bond away from the point of attachment are identical, then the sets of atoms one additional bond away from the point of attachment are compared. If the higher priority groups attached to the double bonded carbon atoms are on the same side of the double bond, the alkene is assigned Z configuration. If the higher priority groups attached to the double bonded carbon atoms are on the opposite side of the double bond, the alkene is assigned E configuration. When more than one double bond is present, each is assigned E or Z configuration, and the location of each double bond appears immediately before the E or Z designation.

Interpretation Introduction

(c)

Interpretation:

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

Concept introduction:

When assigning priorities to substituents, the atom having the greater atomic number has a higher priority. In the case of comparison between isotopes, the one having the greater atomic mass gets the higher priority. If the substituents are attached by the same atom, then the set of atoms one bond away from the point of attachment is compared. In each set, the highest priority atoms are compared. If the sets of atoms one bond away from the point of attachment are identical, then the sets of atoms one additional bond away from the point of attachment are compared. If the higher priority groups attached to the double bonded carbon atoms are on the same side of the double bond, the alkene is assigned Z configuration. If the higher priority groups attached to the double bonded carbon atoms are on the opposite side of the double bond, the alkene is assigned E configuration. When more than one double bond is present, each is assigned E or Z configuration, and the location of each double bond appears immediately before the E or Z designation.

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Chapter C Solutions

Get Ready for Organic Chemistry

Ch. C - Prob. C.1PCh. C - Prob. C.2PCh. C - Prob. C.3PCh. C - Prob. C.4PCh. C - Prob. C.5PCh. C - Prob. C.6PCh. C - Prob. C.7PCh. C - Prob. C.8PCh. C - Prob. C.9PCh. C - Prob. C.10P
Ch. C - Prob. C.11PCh. C - Prob. C.12PCh. C - Prob. C.13PCh. C - Prob. C.14PCh. C - Prob. C.15PCh. C - Prob. C.16PCh. C - Prob. C.17PCh. C - Prob. C.18PCh. C - Prob. C.19PCh. C - Prob. C.20PCh. C - Prob. C.21PCh. C - Prob. C.22PCh. C - Prob. C.23PCh. C - Prob. C.24PCh. C - Prob. C.25PCh. C - Prob. C.26PCh. C - Prob. C.27PCh. C - Prob. C.28PCh. C - Prob. C.29PCh. C - Prob. C.30PCh. C - Prob. C.31PCh. C - Prob. C.32PCh. C - Prob. C.33PCh. C - Prob. C.34PCh. C - Prob. C.35PCh. C - Prob. C.36PCh. C - Prob. C.37P
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