OWLv2 with MindTap Reader, 4 terms (24 months) Printed Access Card for Zumdahl/Zumdahl/DeCoste’s Chemistry, 10th Edition
OWLv2 with MindTap Reader, 4 terms (24 months) Printed Access Card for Zumdahl/Zumdahl/DeCoste’s Chemistry, 10th Edition
10th Edition
ISBN: 9781305957558
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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Chapter 5, Problem 160CP

You have an equimolar mixture of the gases SO2 and O2, along with some He, in a container fitted with a piston. The density of this mixture at STP is 1.924 g/L. Assume ideal behavior and constant temperature and pressure.

a. What is the mole fraction of He in the original mixture?

b. The SO2 and O2 react to completion to form SO3. What is the density of the gas mixture after the reaction is complete?

a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The mole fraction of He in the original mixture containing SO2, O2 and He should be determined, if the density of original mixture is 1.924g/L at constant temperature and pressure.

Concept introduction:

  • Equation for density and number of moles are,

Density=MassVolume  and  Number of moles=MassMolarmass

Therefore,

According to ideal gas equation for molar mass in terms of density is,

Molarmass=Density×R×Temperaturepressure

  • Mass of a substance from its number of moles is,

Number of moles×Molecularmass in grams=takenMass

  • Equation for mole fraction of a molecule in a mixture of three molecules (A, B and C) is,
  • moleculefractionofA,(χA=numbersof moles ofmolecule A(nA)total number of moles(nA+nB+nC

  • Balanced equation of a reaction is written according to law of conservation of mass.
  • Limiting reagent: limiting reagent is a reactant, which consumes completely in the chemical reaction. The quantity of the product depends on this limiting reagent, it can be determined with the help of balanced chemical equation for the reaction.
  • Mole ratios between the reactant and products of a reaction are depends upon the coefficients of respective reactant in a balanced chemical equation.
  • Partial pressure of a gas in a mixture of gases is the pressure of that gas when it alone.

To determine: The mole fraction of He in the original mixture containing SO2, O2 and He and the density of gas mixture after completion of given reaction between SO2 and O2

Answer to Problem 160CP

The mole fraction of He in the original mixture is 0.1114.

Explanation of Solution

To find: the total molar mass of given original mixture containing SO2, O2 and He.

The total molar mass of given original mixture containing SO2, O2 and He is 43.13g.

The given data’s of the given original mixture are,

The density of given mixture is given as 1.924g/L.

Temperature = 273.2 K

Pressure =1atm

According to ideal gas equation for molar mass in terms of density is,

Molarmass=Density×R×Temperaturepressure

Therefore, the molar mass of given original mixture is,

Molarmass=1.924g/L×0.08206Latm/Kmol×273.2K1atm=43.13g/mol

To find: the number of moles of SO2, O2 and He in the original mixture.

Assumes the total number of moles in the original mixture is 1 mole.

The number of moles of SO2 in the original mixture is 0.4443mol.

The number of moles of O2 in the original mixture is 0.4443mol.

The number of moles of He in the original mixture is 0.1114mol.

Let’s take the number of moles of SO2 and O2 are x, since the both are equimolar and the number of moles of He is z.

The total number of moles is 1 mole.

Therefore,

nSO2+nO2+nHe=1mol Equation_1

x+x+z=1mol Equation_1

The total molar mass of given original mixture containing SO2, O2 and He is calculated as 43.13g.

The molar mass of SO2, O2 and He are 64g, 32g and 4g respectively.

The Mass of a substance from its number of moles is,

Number of moles×Molecularmass in grams=takenMass

Therefore,

64x+32x+4z=43.13 Equation_2

To solve equation 1 and 2, subtract the equation _2 by equation_1multiplied with 4,

[64.07x+32x+4z=43.13]-4[x+x+z=1]=88.07x=39.13x=0.4443

Therefore, the value of z is 10.4443+0.4443=0.1114

Hence,

The number of moles of SO2 in the original mixture is 0.4443mol.

The number of moles of O2 in the original mixture is 0.4443mol.

The number of moles of He in the original mixture is 0.1114mol.

To determine: The mole fraction of He in the original mixture containing SO2, O2.

The mole fraction of He in the original mixture is 0.1114.

The number of moles of He in the original mixture is 0.1114mol.

The total number of moles in original mixture is 1 mole.

Equation for mole fraction of a molecule in a mixture of three molecules (A, B and C) is,

moleculefractionofA,(χA=numbersof moles ofmolecule A(nA)total number of moles(nA+nB+nC

Therefore,

The mole fraction of He in the mixture is,

0.1114mol1mol=0.1114

Hence,

The mole fraction ofHe in the original mixture is 0.1114.

b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The density of gas mixture after completion of given reaction between SO2 and O2 should be determined, if the density of original mixture is 1.924g/L at constant temperature and pressure.

Concept introduction:

  • Equation for density and number of moles are,

Density=MassVolume  and  Number of moles=MassMolarmass

Therefore,

According to ideal gas equation for molar mass in terms of density is,

Molarmass=Density×R×Temperaturepressure

  • Mass of a substance from its number of moles is,

Number of moles×Molecularmass in grams=takenMass

  • Equation for mole fraction of a molecule in a mixture of three molecules (A, B and C) is,
  • moleculefractionofA,(χA=numbersof moles ofmolecule A(nA)total number of moles(nA+nB+nC

  • Balanced equation of a reaction is written according to law of conservation of mass.
  • Limiting reagent: limiting reagent is a reactant, which consumes completely in the chemical reaction. The quantity of the product depends on this limiting reagent, it can be determined with the help of balanced chemical equation for the reaction.
  • Mole ratios between the reactant and products of a reaction are depends upon the coefficients of respective reactant in a balanced chemical equation.
  • Partial pressure of a gas in a mixture of gases is the pressure of that gas when it alone.

To determine: The density of gas mixture after completion of given reaction between SO2 and O2

Answer to Problem 160CP

The density of gas mixture after completion of given reaction is 2.473g/L.

Explanation of Solution

To find: the balanced equations for given reaction.

2SO2+O22SO3

The reactants presented are SO2, O2.

The product of the given reactions is SO3.

Therefore,

The chemical equations for the given reactions are,

SO2+O2SO3

This equation is not balanced, Balanced equation is the chemical equation of a reaction which is written according to law of conservation of mass the mass of reactant molecules should conserve in product molecules.

The balanced chemical equation of the given reaction is,

Balance the molecules in both sides of arrow in order of atoms other than oxygen atoms and then oxygen atoms.

Therefore, the balanced chemical equation of the given reaction will be,

2SO2+O22SO3

Hence,

The balanced chemical equation for the given reaction is, 2SO2+O22SO3.

To find: the limiting reagent for given reaction.

The limiting reagent for given reaction is SO2.

The balanced chemical equation for the given reaction is, 2SO2+O22SO3.

2 mole of SO2 is reacting with 1 mole of O2. Since both are taken as equimolar in mixture, the SO2 will finish first in given reaction.

Limiting reagent: limiting reagent is a reactant, which consumes completely in the chemical reaction. The quantity of the product depends on this limiting reagent, it can be determined with the help of balanced chemical equation for the reaction.

Therefore, here in this reaction SO2 is the limiting reagent.

To find: the number of moles of mixture after the reaction.

#assume the total number of moles is 1 mole.

The number of moles of mixture after the reaction is 0.7779mol.

The final mixture contains product SO3 and remaining O2.

The balanced chemical equation for the given reaction is, 2SO2+O22SO3.

The limiting reagent for given reaction is SO2 and the number of moles of SO2 is 0.4443mol.

Therefore,

The number of moles of SO3 is,

0.4443molSO2×2molSO32molSO2=0.4443molSO3

The number of moles of reacting O2 is,

0.4443molSO2×1molO22molSO2=0.2222molO2

The number of moles of O2 in the original mixture is 0.4443mol.

Therefore, the number of moles of reacting O2 is 0.2222mol.

Then, the number of moles of final mixture containing product SO3 and remaining O2 is,

0.4443mol+0.2222mol=0.7779mol

Hence,

The number of moles of mixture after the reaction is 0.7779mol.

To determine: the density of gas mixture after completion of given reaction between SO2 and O2

The density of gas mixture after completion of given reaction is 2.473g/L.

The density of given initial mixture is given as 1.924g/L.

The total number of moles in initial mixture is 1 mole.

The number of moles of mixture after the reaction is 0.7779mol.

Equation for density is,

Density=MassVolume

Volume of gas, according to ideal gas equation,

Volume=Numberofmoles×R×TemperaturePressure

The reaction is at constant temperature and pressure.

Therefore,

{density1volumevolumenumberofmoles}density1numberofmoles

That means,

dinitialdfinal=nfinalninitial

Therefore,

1.924g/Ldfinal=0.7779mol1moldfinal=2.473g/L

Hence,

The density of gas mixture after completion of given reaction is 2.473g/L.

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Chapter 5 Solutions

OWLv2 with MindTap Reader, 4 terms (24 months) Printed Access Card for Zumdahl/Zumdahl/DeCoste’s Chemistry, 10th Edition

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