Experimental Organic Chemistry: A Miniscale & Microscale Approach (Cengage Learning Laboratory Series for Organic Chemistry)
Experimental Organic Chemistry: A Miniscale & Microscale Approach (Cengage Learning Laboratory Series for Organic Chemistry)
6th Edition
ISBN: 9781305080461
Author: John C. Gilbert, Stephen F. Martin
Publisher: Brooks Cole
Question
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Chapter 4.4, Problem 11E

a)

Interpretation Introduction

Interpretation: Percentages of n-propylcyclohexane and n-propylbenzene in first few drops of distillate if 60 mol % n-propylcyclohexane and 40 mol % n-propylbenzene mixture is separated by simple distillation should be determined.

Concept introduction:Simple distillation is separation technique that is used to separate mixture of organic compounds with difference in their boiling points more than 40 °C . In other words, this procedure is applied for removal of nonvolatile impurities from volatile solvents. If one of the compounds in organic mixture is volatile, its vapors will form first and are converted into liquid with help of condenser. This way all of volatile compound gets converted into liquid and therefore it is separated from nonvolatile component.

a)

Expert Solution
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Explanation of Solution

The formula to calculate mole fraction of substance is as follows:

  Mole fraction of substance=Mole percent100 % …… (1)

Substitute 60 % for mole percent in equation (1) to calculate mole fraction of n-propylcyclohexane .

  Mole fraction of n-propylcyclohexane=60 %100 %=0.6

Substitute 40 % for mole percent in equation (1) to calculate mole fraction of n-propylbenzene .

  Mole fraction of n-propylbenzene=40 %100 %=0.4

Raoult’s law describes relationship between composition of liquid mixture and vapor pressure. This law holds good only for ideal solutions. Mathematical expression of Raoult’s law is as follows:

PX=PX°NX …… (2)

Where,

  • PX is partial pressure of component X .
  • PX° is partial pressure of pure component X .
  • NX is mole fraction of component X .

Substitute 0.6 for NX and 769 torr for PX° in equation (2) to calculate partial pressure of n-propylcyclohexane .

  Pn-propylcyclohexane =(769 torr)(0.6)=461.4 torr

Substitute 0.6 for NX and 725 torr for PX° in equation (2) to calculate partial pressure of n-propylbenzene .

  Pn-propylbenzene =(725 torr)(0.4)=290 torr

Dalton’s law of partial pressures states that total pressure is defined as sum of partial pressure of all volatile components. Mathematical expression for Dalton’s law is as follows:

  Ptotal=PX+PY+PZ+... …… (3)

Where,

  • Ptotalis total partial pressure of system.
  • PX is partial pressure of component X .
  • PY is partial pressure of component Y .
  • PZ is partial pressure of component Z .

Since mixture comprises n-propylcyclohexane and n-propylbenzene , total pressure can be calculated by formula below.

  Ptotal=Pn-propylcyclohexane+Pn-propylbenzene …… (4)

Substitute 461.4 torr for Pn-propylcyclohexane and 290 torr for Pn-propylbenzene in equation (4).

  Ptotal=461.4 torr+290 torr=751.4 torr

The formula to calculate percentage composition of substance is as follows:

  % composition of substance=(Pressure of substanceTotal pressure)(100 %) …… (5)

Substitute 461.4 torr for pressure of substance and 751.4 torr for total pressure in equation (5) to calculate % composition of n-propylcyclohexane .

  % composition of n-propylcyclohexane=( 461.4 torr 751.4 torr)(100 %)=61 %

Substitute 290 torr for pressure of substance and 751.4 torr for total pressure in equation (5) to calculate % composition of n-propylbenzene .

  % composition of n-propylbenzene=( 290 torr 751.4 torr)(100 %)=39 %

Hence percentage composition of n-propylcyclohexane is 61 % while that of n-propylbenzene is 39 % .

b)

Interpretation Introduction

Interpretation:Distillation temperature and percentage composition of first few drops of distillatein mixture of 50 mol % benzene and 50 mol % toluene should be determined.

Concept introduction:Simple distillation is separation technique that is used to separate mixture of organic compounds with difference in their boiling points more than 40 °C . In other words, this procedure is applied for removal of nonvolatile impurities from volatile solvents. If one of the compounds in organic mixture is volatile, its vapors will form first and are converted into liquid with help of condenser. This way all of volatile compound gets converted into liquid and therefore it is separated from nonvolatile component.

b)

Expert Solution
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Explanation of Solution

Temperature-composition diagram for binary mixture of benzene and toluene is as follows:

  Experimental Organic Chemistry: A Miniscale & Microscale Approach (Cengage Learning Laboratory Series for Organic Chemistry), Chapter 4.4, Problem 11E , additional homework tip  1

Composition of mixture is 50 mol % benzene and 50 mol % toluene so temperature that corresponds to this composition is 93 °C that can be determined as follows:

  Experimental Organic Chemistry: A Miniscale & Microscale Approach (Cengage Learning Laboratory Series for Organic Chemistry), Chapter 4.4, Problem 11E , additional homework tip  2

Since distillation temperature comes out to be 93 °C , composition of distillate in first few drops can also be determined with help of above diagram. Composition that corresponds to first few drops of distillate comes out to be 25 mol % toluene and 75 mol % benzene .

c)

Interpretation Introduction

Interpretation:Distillation results in mixture of n-propylcyclohexane and n-propylbenzene and that of benzene and toluene should be compared. Also,whether mixture of n-propylcyclohexane and n-propylbenzene or that of benzene and toluene require more efficient fractional distillation column for separation of components should be explained.

Concept introduction:Fractional distillation is separation technique that separates various fractions of components in mixture. This process is based on vaporization of one or more fractions or parts of mixture. It is used to separate components of mixture that have difference in boiling points less than 25 °C .

c)

Expert Solution
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Explanation of Solution

Boiling points of n-propylcyclohexane and n-propylbenzene are 156 °C and 159 °C respectively while those of benzene and toluene are 80 °C and 111 °C respectively. Since difference in boiling points of n-propylcyclohexane and n-propylbenzene is lower as compared to that between benzene and toluene, this mixture is more likely to need more efficient fractional distillation.

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2. You have a solution that contains 4.0g of oxalic acid dissolved in 100 mL of water. This solution is placed in a separatory funnel, and then 100 mL of diethyl ether is added to the separatory funnel and an extraction is performed. (Diethyl ether and water are immiscible solvents.) Use the following constants to calculate how much oxalic acid is in each solvent after the extraction. Solubility of oxalic acid in water = 9.5 g / 100 mL Solubility of oxalic acid in ether = 16.9 g/100 mL
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