Introduction to Chemistry, Special Edition
Introduction to Chemistry, Special Edition
6th Edition
ISBN: 9781337035934
Author: Cracolice/Peters
Publisher: Cengage Learning
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Chapter 10, Problem 8PE
Interpretation Introduction

Interpretation:

The number of kilograms of sulfur dioxide that will result from burning 5.00×102 kilograms of carbon disulfide is to be calculated.

Concept introduction:

Chemical reactions are represented by chemical equations. In a chemical equation the reactants are represented on the left of the arrow while the products are represented on the right of the arrow. Stoichiometric coefficient is the number preceding each symbol in a reaction which determines the moles of the reactants and products in the reaction.

Expert Solution & Answer
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Answer to Problem 8PE

The number of kilograms of sulfur dioxide that will result from burning 5.00×102 kilograms of carbon disulfide is 782kg.

Explanation of Solution

The balanced equation for the reaction is given below.

CS2(l)+3O2(g)2SO2(g)+CO2(g)

Therefore, 1 kilomole of CS2 produces 2 kilomoles of SO2.

Therefore kilomole to kilomole ratio is given below.

2kmolSO2=1kmolCS2

Therefore, two conversion factors from the kilomole-to-kilomole ratio are given below.

2kmolSO21kmolCS2and1kmolCS22kmolSO2

The conversion factor to obtain kilomoles of SO2 from CS2 is given below.

2kmolSO21kmolCS2

The molar mass of carbon is 12.01kgmol1.

The molar mass of sulfur is 32.06kgmol1.

Therefore, the molar mass of CS2 is calculated below.

Totalmolarmass=12.01kgmol1+(2×32.06kgmol1)=12.01kgmol1+64.12kgmol1=76.13kgmol1

Therefore, the conversion factor to obtain kilomoles of CS2 from kilograms of CS2 is given below.

1kmolCS276.13kgCS2

The molar mass of oxygen is 16.00kgmol1.

The molar mass of sulfur is 32.06kgmol1.

Therefore, the molar mass of SO2 is calculated below.

Totalmolarmass=32.06kgmol1+(2×16.00kgmol1)=32.06kgmol1+32.00kgmol1=64.06kgmol1

Therefore, the conversion factor to obtain kilograms of SO2 from kilomoles of SO2 is given below.

64.06kgSO21kmolSO2

The formula to calculate the mass of SO2 from CS2 is given below.

MassofSO2=(GivenmassofCS2×Conversionfactortoobtain moles of SO2×Conversionfactorto obtain toobtain molesofCS2×Conversionfactorto obtain grams ofSO2)…(1)

The mass of CS2 is 5.00×102kg.

Substitute the mass of CS2 and the conversion factors in equation (1).

IdealmassofSO2=5.00×102kg×2kmolSO21kmolCS2×1kmolCS276.13kgCS2×64.06kgSO21kmolSO2=5.00×102kg×2×176.13kgCS2×64.06kgSO2=841.455kg

The percentage yield is calculated by the formula given below.

Percentageyield=ActualyieldIdealyield×100…(2)

The percentage is 92.9%.

The ideal yield is 841.455kg.

Substitute the value of ideal yield and percentage in equation (2).

92.9%=Actualyield841.455kg×100Actualyield=92.9×841.455kg100=782kg

Therefore, the number of kilograms of sulfur dioxide that will result from burning 5.00×102 kilograms of carbon disulfide is 782kg.

Conclusion

The number of kilograms of sulfur dioxide that will result from burning 5.00×102 kilograms of carbon disulfide is 782kg.

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Chapter 10 Solutions

Introduction to Chemistry, Special Edition

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