Loose Leaf for Chemistry: The Molecular Nature of Matter and Change
Loose Leaf for Chemistry: The Molecular Nature of Matter and Change
8th Edition
ISBN: 9781260151749
Author: Silberberg Dr., Martin; Amateis Professor, Patricia
Publisher: McGraw-Hill Education
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Chapter 4, Problem 4.126P

(a)

Interpretation Introduction

Interpretation:

The percent yield of the formation of NH3 is to be calculated.

Concept introduction:

Haber process is one of the industrial methods employed for the preparation of ammonia (NH3). In this method, nitrogen and hydrogen molecule react in the presence of an iron catalyst to form ammonia gas. High temperature and pressure condition is required for the reaction. The balanced chemical equation for the preparation of NH3 is:

N2(g)+3H2(g)2NH3(g)

Combination redox reactions are the reactions in which two or more reactants combine to form a single product. The formation of ammonia from nitrogen and hydrogen molecule is an example of a combination redox reaction.

(a)

Expert Solution
Check Mark

Answer to Problem 4.126P

The percent yield of the formation of NH3 is 61.7%.

Explanation of Solution

The mass of N2 is 20g.

The mass of H2 is 10g.

The mass of NH3 at equilibrium is 15g.

Nitrogen molecule (N2) reacts with hydrogen molecule (H2) to form ammonia molecule (NH3). The balanced chemical equation of the combination redox reaction is:

N2(g)+3H2(g)2NH3(g)

One mole of N2 reacts with three moles of H2 to give two moles of NH3.

The molecular mass of N2 is 28.02g/mol and the molecular mass of H2 is 2.016g/mol.

The formula to calculate moles of NH3 when N2 is limiting reagent is:

MolesofNH3=[(mass ofN2(g)molecular massofN2(g/mol))(2molNH31molN2)]                       (1)

Substitute 20g for the mass of N2 and 28.02g/mol for molecular mass of N2 in the equation (1).

MolesofNH3=[(20g28.02g/mol)(2molNH31molN2)]=[(0.713775mol)(2molNH31molN2)]=1.42755mol

The formula to calculate moles of NH3 when H2 is limiting reagent is:

MolesofNH3=[(mass ofH2(g)molecular massofH2(g/mol))(2molNH33molH2)]                        (2)

Substitute 10g for the mass of H2 and 2.016g/mol for molecular mass of H2 in the equation (2).

MolesofNH3=[(10g2.016g/mol)(2molNH33molH2)]=[(4.9603mol)(2molNH33molH2)]=3.306878mol

N2 is limiting reagent in the reaction as the moles of NH3 produced is less in this case as compared to when H2 is the limiting agent.

The molecular mass of NH3 is 17.03g/mol.

The formula to calculate the mass of NH3 is:

MassofNH3=(moles ofNH3(mol))(molecular mass of NH3(g/mol)) (3)

Substitute 1.42755mol for moles of NH3 and 17.03g/mol for molecular mass of NH3 in equation (3).

MassofFe=(1.42755mol)(17.03g/mol)=24.311g

The expression to calculate the percent yield of the reaction is:

 %yield=(actual yield(g)theoretical yield(g))(100) (4)

Substitute 15g for actual yield and 24.311g for theoretical yield in the equation (4).

 %yield=(15g24.311g)(100)=61.7%

Conclusion

The percent yield of the formation of NH3 is 61.7%.

(b)

Interpretation Introduction

Interpretation:

The moles of N2 and H2 that are present at equilibrium is to be calculated.

Concept introduction:

The redox reaction can be classified into three types depending upon the number of reactants and products as follows:

1. Combination redox reaction

2. Decomposition redox reaction

3. Displacement redox reactions

Combination redox reactions are the reactions in which two or more reactants combine to form a single product. In displacement redox reactions, substances on both sides of the equation remain the same but the atoms exchange places in order to form the product while in decomposition reaction, one compound decomposes to form one or more product.

(b)

Expert Solution
Check Mark

Answer to Problem 4.126P

The moles of N2 and H2 that are present at equilibrium is 0.273mol and 3.64mol respectively.

Explanation of Solution

The mass of N2 is 20g.

The mass of H2 is 10g.

The mass of NH3 at equilibrium is 15g.

The molecular mass of N2 is 28.02g/mol and the molecular mass of H2 is 2.0916g/mol.

The formula to calculate moles of N2 initially present in the reaction is:

MolesofN2=(mass ofN2(g)molecular massofN2(g/mol))                                                    (5)

Substitute 20g for the mass of N2 and 28.02g/mol for molecular mass of N2 in the equation (5).

MolesofN2=(20g28.02g/mol)=0.71378mol

The formula to calculate moles of H2 initially present in the reaction is:

MolesofH2=(mass ofH2(g)molecular massofH2(g/mol))                                                     (6)

Substitute 10g for the mass of H2 and 2.016g/mol for molecular mass of H2 in the equation (6).

MolesofH2=(10g2.016g/mol)=4.9603mol

The molecular mass of NH3 is 17.03g/mol.

The formula to calculate moles of N2 to produce 15gNH3 is:

MolesofN2=[(mass ofNH3(g)molecular massofNH3(g/mol))(1molN22molNH3)]                       (7)

Substitute 15g for the mass of NH3 and 17.03g/mol for molecular mass of NH3 in the equation (7).

MolesofN2=[(15g17.03g/mol)(1molN22molNH3)]=0.4404mol

The formula to calculate moles of H2 to produce 15gNH3 is:

MolesofH2=[(mass ofNH3(g)molecular massofNH3(g/mol))(3molH22molNH3)]                       (8)

Substitute 15g for the mass of NH3 and 17.03g/mol for molecular mass of NH3 in the equation (8).

MolesofH2=[(15g17.03g/mol)(3molH22molNH3)]=1.3212mol

The formula to calculate moles of N2 at equilibrium is:

Moles of N2 at equilibrium=(Initial moles ofN2)(Reacted mole ofN2) (9)

Substitute 0.71378mol for an initial mole of N2 and 0.4404mol for a reacted mole of N2 in the equation (9).

Moles of N2 at equilibrium=(0.71378mol)(0.4404mol)=0.27338mol0.273mol

The formula to calculate moles of H2 at equilibrium is:

Moles of H2 at equilibrium=(Initial moles ofH2)(Reacted mole ofH2) (10)

Substitute 4.9603mol for an initial mole of H2 and 1.3212mol for a reacted mole of H2 in the equation (10).

Moles of N2 at equilibrium=(4.9603mol)(1.3212mol)=3.6391mol3.64mol

Conclusion

The moles of N2 and H2 that are present at equilibrium is 0.273mol and 3.64mol respectively.

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Chapter 4 Solutions

Loose Leaf for Chemistry: The Molecular Nature of Matter and Change

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