EBK INTRODUCTORY CHEMISTRY: AN ACTIVE L
EBK INTRODUCTORY CHEMISTRY: AN ACTIVE L
6th Edition
ISBN: 8220100547508
Author: CRACOLICE
Publisher: Cengage Learning US
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Chapter 16, Problem 146E

A student adds 25.0 mL of 0.350 M sodium hydroxide to 45.0 mL of 0.125 M copper ( II ) sulfate. How many grams of copper ( II ) hydroxide will precipitate?

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Interpretation Introduction

Interpretation:

The mass of copper (II) hydroxide that would be precipitate by the reaction of 25mL of 0.350M sodium hydroxide with 45.0mL of 0.125M copper (II) sulfate is to be calculated.

Concept introduction:

The molarity of a solution is defined as the number of mole of solute dissolved in one liter of the solution. The formula for molarity is given by the expression as shown below.

M=nV

The relation between number of moles and mass of a substance is given by the expression as shown below.

n=mMolarmass

Answer to Problem 146E

The mass of copper (II) hydroxide that would be precipitate by the reaction of 25mL of 0.350M sodium hydroxide and 45.0mL of 0.125M copper (II) sulfate is 0.427g.

Explanation of Solution

The molarity sodium hydroxide solution is 0.350M.

The volume of sodium hydroxide solution is 25mL.

The conversion of volume in L is shown below.

V=(25mL)(1L1000mL)=25×103L

The molarity copper (II) sulfate solution is 0.125M.

The volume of copper (II) sulfate solution is 45.0mL.

The conversion of volume in L is shown below.

V=(45.0mL)(1L1000mL)=45.0×103L

The molar mass of copper (II) hydroxide is 97.57g/mol.

The molarity of a solution is given by the expression as shown below.

M=nV

Where,

n is the number of moles of the solute.

V is the volume of the solution.

Rearrange the above equation for the value of n.

n=MV

Substitute the values of molarity and volume of sodium hydroxide solution in above expression.

n=(0.350M)(1mol/L1M)(25×103L)=8.75×103mol

The number of moles of sodium hydroxide present in solution is 8.75×103mol.

Substitute the values of molarity and volume of copper (II) sulfate solution in above expression.

n=(0.125M)(1mol/L1M)(45.0×103L)=5.625×103mol

The number of moles of copper (II) sulfate present in solution is 5.625×103mol.

The reaction between sodium hydroxide and copper (II) sulfate is shown below.

2NaOH+CuSO4Cu(OH)2+Na2SO4

Two moles of sodium hydroxide reacts with one mole of copper (II) sulfate. The available number of moles of copper (II) sulfate is more than half of number of moles of sodium hydroxide. Therefore, sodium hydroxide is the limiting reagent of the reaction.

Two moles of sodium hydroxide produced one mole of copper (II) hydroxide. Therefore, the relation between the number of moles of sodium hydroxide and copper (II) hydroxide is given by the expression as shown below.

nCu(OH)2=nNaOH2…(1)

Where,

nNaOH is the number of moles of sodium hydroxide.

nCu (OH)2 is the number of moles of copper (II) hydroxide.

Substitute the value of nNaOH in the equation (1).

nCu(OH)2=8.75×103mol2=4.375×103mol

The relation between number of moles and mass of a substance is given by the expression as shown below.

m=n×Molarmass

Where,

m is the mass of the substance.

n is the number of moles of the substance.

Substitute the value of number of moles and molar mass of copper (II) hydroxide in the above equation.

m=(4.375×103mol)(97.57g/mol)=0.427g

Therefore, the mass of copper (II) hydroxide that would be precipitate by the reaction of 25mL of 0.350M sodium hydroxide and 45.0mL of 0.125M copper (II) sulfate is 0.427g.

Conclusion

The mass of copper (II) hydroxide that would be precipitate by the reaction of 25mL of 0.350M sodium hydroxide and 45.0mL of 0.125M copper (II) sulfate is 0.427g.

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Chapter 16 Solutions

EBK INTRODUCTORY CHEMISTRY: AN ACTIVE L

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