Chemistry
Chemistry
9th Edition
ISBN: 9781133611097
Author: Steven S. Zumdahl
Publisher: Cengage Learning
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Chapter 5, Problem 89E

a)

Interpretation Introduction

Interpretation: The total number of moles in the mixture, the mole fractions and the number of grams of each gas in the given mixture is needed to be determined if the partial pressure of CH4 is 0.175atm and O2 is 0.250atm .

Concept introduction:

  • Partial pressure of a gas in a mixture of gases is the pressure of that gas when it alone.

    Partial pressure of a gas in terms of its mole fraction and total pressure is,

    ` PA=χA×PTOTAL

  • A mole fraction of a molecule in a mixture is the ratio of number of moles of particular molecule to the sum of number of moles of all molecules in the mixture.

  • The number of moles of molecule can be find out by using its mole fraction,
  • numbersof moles ofmolecule A(nA)=moleculefractionofA,(χA×total number of moles

  • Number of grams of a substance from its number of moles is,

Number of moles×Molecularmass in grams=Numberofgrams

  • Total number of moles of gases in the mixture of gases can be determined by using ideal gas equation.

According to ideal gas equation,

Total numberofmoles=Total pressure×VolumeR×Temperature

To determine: the total number of moles in the mixture, the mole fractions and the number of grams of each gas in the given mixture.

a)

Expert Solution
Check Mark

Answer to Problem 89E

Mole fraction of CH4 is 0.412 .

Mole fraction of O2 is 0.588 .

Explanation of Solution

To find: the mole fractions of CH4 and O2 in the given mixture if the partial pressure of CH4 is 0.175atm and O2 is 0.250atm .

Mole fraction of CH4 is 0.412 .

Mole fraction of O2 is 0.588 .

The partial pressure of CH4 is given as 0.175atm

The partial pressure of O2 is given as 0.250atm .

Therefore, the total pressure of the mixture is,

0.175atm+0.250atm=0.425atm

Equation for finding mole fraction from partial pressure and total pressure is,

χA=PAPTOTAL

Therefore,

The mole fraction of CH4 is,

χCH4=0.175atm0.425atm=0.412

The mole fraction of O2 is,

χO2=0.250atm0.425atm=0.588

b)

Interpretation Introduction

Interpretation: The total number of moles in the mixture, the mole fractions and the number of grams of each gas in the given mixture is needed to be determined if the partial pressure of CH4 is 0.175atm and O2 is 0.250atm .

Concept introduction:

  • Partial pressure of a gas in a mixture of gases is the pressure of that gas when it alone.

    Partial pressure of a gas in terms of its mole fraction and total pressure is,

    ` PA=χA×PTOTAL

  • A mole fraction of a molecule in a mixture is the ratio of number of moles of particular molecule to the sum of number of moles of all molecules in the mixture.

  • The number of moles of molecule can be find out by using its mole fraction,
  • numbersof moles ofmolecule A(nA)=moleculefractionofA,(χA×total number of moles

  • Number of grams of a substance from its number of moles is,

Number of moles×Molecularmass in grams=Numberofgrams

  • Total number of moles of gases in the mixture of gases can be determined by using ideal gas equation.

According to ideal gas equation,

Total numberofmoles=Total pressure×VolumeR×Temperature

To determine: the total number of moles in the mixture, the mole fractions and the number of grams of each gas in the given mixture.

b)

Expert Solution
Check Mark

Answer to Problem 89E

Total number of moles of gas in the mixture is 0.161mol .

Explanation of Solution

To find: the total number of moles of gases in the given mixture.

The total number of moles of gases in the given mixture is 0.161mol .

The total pressure of gases presented in the mixture is given as 0.425atm .

The volume of flask is given as 10.5L .

The temperature of flask is given as 65oC=(273+65)K=338K .

The total number of moles of gas in the mixture is determined by using ideal gas equation According to ideal gas equation,

Total numberofmoles=Total pressure×VolumeR×Temperature

Therefore,

The total number of moles of gas in the mixture is,

Total numberofmoles=0.425atm×10.5L0.08206Latm/Kmol×338K =0.161mol

c)

Interpretation Introduction

Interpretation: The total number of moles in the mixture, the mole fractions and the number of grams of each gas in the given mixture is needed to be determined if the partial pressure of CH4 is 0.175atm and O2 is 0.250atm .

Concept introduction:

  • Partial pressure of a gas in a mixture of gases is the pressure of that gas when it alone.

    Partial pressure of a gas in terms of its mole fraction and total pressure is,

    ` PA=χA×PTOTAL

  • A mole fraction of a molecule in a mixture is the ratio of number of moles of particular molecule to the sum of number of moles of all molecules in the mixture.

  • The number of moles of molecule can be find out by using its mole fraction,
  • numbersof moles ofmolecule A(nA)=moleculefractionofA,(χA×total number of moles

  • Number of grams of a substance from its number of moles is,

Number of moles×Molecularmass in grams=Numberofgrams

  • Total number of moles of gases in the mixture of gases can be determined by using ideal gas equation.

According to ideal gas equation,

Total numberofmoles=Total pressure×VolumeR×Temperature

To determine: the total number of moles in the mixture, the mole fractions and the number of grams of each gas in the given mixture.

c)

Expert Solution
Check Mark

Answer to Problem 89E

The number of grams of CH4 is 1.06g .

The number of grams of O2 is 3.03g .

Explanation of Solution

To find: the number of grams of CH4 and O2 in the given mixture.

The number of grams of CH4 is 1.06g .

The number of grams of O2 is 3.03g .

The mole fraction of CH4 is calculated as 0.412 .

The mole fraction of O2 is calculated as 0.588 .

The total number of moles of gases in the given mixture is calculated as 0.161mol .

  • The number of moles of molecule can be find out by using its mole fraction,

    Equation for finding number of moles,

numbersof moles ofmolecule A(nA)=moleculefractionofA,(χA×total number of moles

Therefore,

-The number of moles of CH4 is,

nCH4=0.412 ×0.161mol=6.63×10-2mol

-The number of moles of O2 is,

nCH4=0.588 ×0.161mol=9.47×10-2mol

  • The number of grams of a substance is determined from its number of moles is,

    Equation for finding number of grams is,

Number of moles×Molecularmass in grams=Numberofgrams

-The number of grams of CH4 is,

6.63×10-2mol×16g=1.06g

-The number of grams of O2 is,

9.47×10-2mol×32g=3.03g

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Chapter 5 Solutions

Chemistry

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