BNDL: ACP ORGANIC CHEMISTRY:CH EM 231(W/ACCESS CARD)
BNDL: ACP ORGANIC CHEMISTRY:CH EM 231(W/ACCESS CARD)
8th Edition
ISBN: 9781337687539
Author: Brown/Iverson/Anslyn/ Foote
Publisher: CENGAGE C
Question
Book Icon
Chapter 13, Problem 13.9P

(a)

Interpretation Introduction

Interpretation:

For the given each molecule the index hydrogen deficiency value has to be calculated.

Concept introduction:

The Index of Hydrogen Deficiency (IHD) is otherwise called as units of unsaturation. IHD gives the count of number of Hydrogen molecules that are needed to add to a structure in order to form the corresponding saturated acyclic compound. Hence, the count of number of rings and multiple bonds seen in the structure are taken in consideration.

There are two ways of using IHD

  1. 1) From a drawn structure: The number of rings and π bonds present are counted. The π bonds containing heteroatom (such as Oxygen, Nitrogen etc.,) are counted the same way as all Carbon bonds are counted.
  2. 2) From the molecular formula: The IHD can also be given from molecular formula. The following generic molecular formula CcHhNnOoXx , then IHD equation can be derived ,

    IHD=0.5×[2c+2-h-x+n]

HDI= ( 2C+2+N-H-X)2

indicatesnumberofcarbonindicatesnumberofnitrogenindicatesnumberofhydrogenindicatesnumberofhalogen

(a)

Expert Solution
Check Mark

Explanation of Solution

Let us consider the Aspirin molecule,

It is structural formula is C9H8O4

We calculate the IHD as follows:

HDI( 2C+2+N-H-X)2=2×9+2+0-8-02=6_

Therfore, the given asprin molecule HDI value is Six6.

(b)

Interpretation Introduction

Interpretation:

For the given each molecule the index hydrogen deficiency has to be calculated.

Concept introduction:

The Index of Hydrogen Deficiency (IHD) is otherwise called as units of unsaturation. IHD gives the count of number of Hydrogen molecules that are needed to add to a structure in order to form the corresponding saturated acyclic compound. Hence, the count of number of rings and multiple bonds seen in the structure are taken in consideration.

There are two ways of using IHD

  1. 1) From a drawn structure: The number of rings and π bonds present are counted. The π bonds containing heteroatom (such as Oxygen, Nitrogen etc.,) are counted the same way as all Carbon bonds are counted.
  2. 2) From the molecular formula: The IHD can also be given from molecular formula. The following generic molecular formula CcHhNnOoXx , then IHD equation can be derived ,

    IHD=0.5×[2c+2-h-x+n]

HDI= ( 2C+2+N-H-X)2

indicatesnumberofcarbonindicatesnumberofnitrogenindicatesnumberofhydrogenindicatesnumberofhalogen

(b)

Expert Solution
Check Mark

Explanation of Solution

Let us consider the Ascorbic acid (vitamin C),

It is structural formula is C6H8O6

We calculate the IHD as follows:

HDI( 2C+2+N-H-X)2=2×6+2+0-8-02=3

Therfore, the given Ascorbic acid (vitamin C), HDI value is  3_.

(c)

Interpretation Introduction

Interpretation:

For the given each molecule the index hydrogen deficiency has to be calculated.

Concept introduction:

The Index of Hydrogen Deficiency (IHD) is otherwise called as units of unsaturation. IHD gives the count of number of Hydrogen molecules that are needed to add to a structure in order to form the corresponding saturated acyclic compound. Hence, the count of number of rings and multiple bonds seen in the structure are taken in consideration.

There are two ways of using IHD

  1. 1) From a drawn structure: The number of rings and π bonds present are counted. The π bonds containing heteroatom (such as Oxygen, Nitrogen etc.,) are counted the same way as all Carbon bonds are counted.
  2. 2) From the molecular formula: The IHD can also be given from molecular formula. The following generic molecular formula CcHhNnOoXx , then IHD equation can be derived ,

    IHD=0.5×[2c+2-h-x+n]

HDI= ( 2C+2+N-H-X)2

indicatesnumberofcarbonindicatesnumberofnitrogenindicatesnumberofhydrogenindicatesnumberofhalogen

(c)

Expert Solution
Check Mark

Explanation of Solution

Let us consider the pyridine,

It is structural formula is C5H5N

We calculate the IHD as follows:

HDI( 2C+2+N-H-X)2=2×5+2+1-5-02=4

Therfore, the given pyridine, HDI value is 4.

(d)

Interpretation Introduction

Interpretation:

For the given each molecule the index hydrogen deficiency has to be calculated.

Concept introduction:

The Index of Hydrogen Deficiency (IHD) is otherwise called as units of unsaturation. IHD gives the count of number of Hydrogen molecules that are needed to add to a structure in order to form the corresponding saturated acyclic compound. Hence, the count of number of rings and multiple bonds seen in the structure are taken in consideration.

There are two ways of using IHD

  1. 1) From a drawn structure: The number of rings and π bonds present are counted. The π bonds containing heteroatom (such as Oxygen, Nitrogen etc.,) are counted the same way as all Carbon bonds are counted.
  2. 2) From the molecular formula: The IHD can also be given from molecular formula. The following generic molecular formula CcHhNnOoXx , then IHD equation can be derived ,

    IHD=0.5×[2c+2-h-x+n]

HDI= ( 2C+2+N-H-X)2

indicatesnumberofcarbonindicatesnumberofnitrogenindicatesnumberofhydrogenindicatesnumberofhalogen

(d)

Expert Solution
Check Mark

Explanation of Solution

Let us consider the Urea,

It is structural formula is CH4N2O

We calculate the IHD as follows:

HDI( 2C+2+N-H-X)2=2×1+2+2-4-02=1

Therfore, the given Urea molecule HDI value is one1.

(e)

Interpretation Introduction

Interpretation:

For the given each molecule the index hydrogen deficiency value has to be calculated.

Concept introduction:

The Index of Hydrogen Deficiency (IHD) is otherwise called as units of unsaturation. IHD gives the count of number of Hydrogen molecules that are needed to add to a structure in order to form the corresponding saturated acyclic compound. Hence, the count of number of rings and multiple bonds seen in the structure are taken in consideration.

There are two ways of using IHD

  1. 1) From a drawn structure: The number of rings and π bonds present are counted. The π bonds containing heteroatom (such as Oxygen, Nitrogen etc.,) are counted the same way as all Carbon bonds are counted.
  2. 2) From the molecular formula: The IHD can also be given from molecular formula. The following generic molecular formula CcHhNnOoXx , then IHD equation can be derived ,

    IHD=0.5×[2c+2-h-x+n]

HDI= ( 2C+2+N-H-X)2

indicatesnumberofcarbonindicatesnumberofnitrogenindicatesnumberofhydrogenindicatesnumberofhalogen

(e)

Expert Solution
Check Mark

Explanation of Solution

Let us consider the Cholesterol,

It is structural formula is C27H46O

We calculate the IHD as follows:

HDI( 2C+2+N-H-X)2=2×27+2+0-46-02=5

Therfore, the given Cholesterol molecule HDI value is five5_.

(f)

Interpretation Introduction

Interpretation:

For the given each molecule the index hydrogen deficiency value has to be calculated.

Concept introduction:

The Index of Hydrogen Deficiency (IHD) is otherwise called as units of unsaturation. IHD gives the count of number of Hydrogen molecules that are needed to add to a structure in order to form the corresponding saturated acyclic compound. Hence, the count of number of rings and multiple bonds seen in the structure are taken in consideration.

There are two ways of using IHD

  1. 1) From a drawn structure: The number of rings and π bonds present are counted. The π bonds containing heteroatom (such as Oxygen, Nitrogen etc.,) are counted the same way as all Carbon bonds are counted.
  2. 2) From the molecular formula: The IHD can also be given from molecular formula. The following generic molecular formula CcHhNnOoXx , then IHD equation can be derived ,

    IHD=0.5×[2c+2-h-x+n]

HDI= ( 2C+2+N-H-X)2

indicatesnumberofcarbonindicatesnumberofnitrogenindicatesnumberofhydrogenindicatesnumberofhalogen

(f)

Expert Solution
Check Mark

Explanation of Solution

Let us consider the Dopamine,

It is structural formula is C8H11NO2

We calculate the IHD as follows:

HDI( 2C+2+N-H-X)2=2×8+2+1-11-02=4

Therfore, the given Dopamine molecule HDI value is four4_.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!
04:43
Students have asked these similar questions
What is the anhydride for each of the following acids:(a) H2SO4, (b) HClO3, (c) HNO2, (d) H2CO3, (e) H3PO4?
The activity of an enzyme requires a glutamic acid to display its -COOH functional group in the protonated state. Suppose the pK, of the -COOH group is 4.07. (a) Will the enzyme be more active at pH 3.5 or 4.5? Explain. (b) What fraction of the enzymes will be active at pH = 4.07? Explain. (c) At what pH will the enzyme show 78% of maximal activity?
Write the therapeutic action of following on human body and mention the class of drugs to which each of these belong:(i) Ranitidine(ii) Morphine(iii) Aspirin

Chapter 13 Solutions

BNDL: ACP ORGANIC CHEMISTRY:CH EM 231(W/ACCESS CARD)

Knowledge Booster
Background pattern image
Similar questions
SEE MORE QUESTIONS
Recommended textbooks for you
Text book image
Introduction to General, Organic and Biochemistry
Chemistry
ISBN:9781285869759
Author:Frederick A. Bettelheim, William H. Brown, Mary K. Campbell, Shawn O. Farrell, Omar Torres
Publisher:Cengage Learning