Chemistry & Chemical Reactivity
Chemistry & Chemical Reactivity
9th Edition
ISBN: 9781133949640
Author: John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Publisher: Cengage Learning
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Chapter 4, Problem 125IL

You wish to determine the weight percent of copper in a copper-containing alloy. After dissolving a 0.251 -g sample of the alloy in acid, an excess of KI is added, and the Cu2+ and I ions undergo the reaction

2 Cu2+(aq) + 5 I(aq) → 2 CuI(s) + I3(aq)

The liberated I3 is titrated with sodium thiosulfate according to the equation

I3 (aq) + 2 S2O32−(aq) → S4O62−(aq) + 3 I (aq)

  1. (a) Designate the oxidizing and reducing agents in the two reactions above.
  2. (b) If 26.32 mL of 0.101 M Na2S2O3 is required for titration to the equivalence point, what is the weight percent of Cu in the alloy?

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The weight percent of Cu in the given sample of alloy, oxidizing and reducing agent in the given reactions should be determined.

Concept introduction:

  • The relation between the number of moles and mass of the substance is ,

     Numberofmole=MassingramMolarmass

     Massingramofthesubstance=Numberofmole×Molarmass

  • The molar mass of an element or compound is the mass in grams of 1 mole of that substance, and it is expressed in the unit of grams per mol (g/mol).
  • For chemical reaction balanced chemical reaction equation written in accordance with the Law of conservation of mass.
  • Law of conservation of mass states that for a reaction total mass of the reactant and product must be equal.
  • Stoichiometric factor is a relationship between reactant and product which is obtained from the balanced chemical equation for a particular reaction.
  • Amountof substance=Concentrationofsubstance×volumeofthesubstance
  • Weight percent of elements of a compound is the ratio of weight of element to the weight of whole compound and multiplied with hundred.
  • Oxidizing agent is the reduced (gains electrons) atom to cause another atom to be oxidized
  • Reducing agent is the oxidized (loses electron) atom to cause another atom to be reduced.

Answer to Problem 125IL

In the first reaction  Cu2+ acts as the oxidizing agent and I acts as the reducing agent. And in second reaction I3 is the oxidizing agent and S2O32 is the reducing agent.

Explanation of Solution

The balanced equation for the first reaction is,

    2Cu(aq)2++5I(aq)2CuI(s)+I(aq)

In this reaction Cu2+ acts as the oxidizing agent and I acts as the reducing agent.

The balanced equation for the second given reaction is,

            I3(aq)+2S2O3(aq)2S4O6(aq)2+3I(aq)

In this reaction I3 is the oxidizing agent and S2O32 is the reducing agent.

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The weight percent of Cu in the given sample of alloy, oxidizing and reducing agent in the given reactions should be determined.

Concept introduction:

  • The relation between the number of moles and mass of the substance is ,

     Numberofmole=MassingramMolarmass

     Massingramofthesubstance=Numberofmole×Molarmass

  • The molar mass of an element or compound is the mass in grams of 1 mole of that substance, and it is expressed in the unit of grams per mol (g/mol).
  • For chemical reaction balanced chemical reaction equation written in accordance with the Law of conservation of mass.
  • Law of conservation of mass states that for a reaction total mass of the reactant and product must be equal.
  • Stoichiometric factor is a relationship between reactant and product which is obtained from the balanced chemical equation for a particular reaction.
  • Amountof substance=Concentrationofsubstance×volumeofthesubstance
  • Weight percent of elements of a compound is the ratio of weight of element to the weight of whole compound and multiplied with hundred.
  • Oxidizing agent is the reduced (gains electrons) atom to cause another atom to be oxidized
  • Reducing agent is the oxidized (loses electron) atom to cause another atom to be reduced.

Answer to Problem 125IL

The weight percent of Cu in the given sample of alloy is 67.3%.

Explanation of Solution

Herein 0.251g sample of alloy that contains copper is dissolved in acid, an excess of KI is added. And the following reaction will take place.

                  2Cu(aq)2++5I(aq)2CuI(s)+I(aq)

The liberated I3 is titrated against sodium thiosulfate according to the equation,

             I3(aq)+2S2O3(aq)2S4O6(aq)2+3I(aq)

The amount of Na2S2O3 in 26.32mLof0.101MNa2S2O3 can be calculated as follows,

Amountof Na2S2O3=ConcentrationNa2S2O3×volumeNa2S2O3

                             0.101molL×0.02632L=0.002658moles 

From the balanced equation it is clear that Na2S2O3 and NaI3 are reacts in 2:1 ratio. Therefore the amount of NaI3 is,

        0.002658Na2S2O3×1molNaI32molNa2S2O3=0.001329mol

Similarly the amount of Copper alloy can be determined from the amount of NaI3

Therefore,

   0.001329NaI3×2molCu1molNaI3=0.002658mole

Mass of copper involved in this reaction is 0.169g. And it is obtained by multiplying the amount of copper with its molar mass 63.54g/mol.

The weight percent of Cu = 0.169g0.251g×100

                    =    67.3%

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Chapter 4 Solutions

Chemistry & Chemical Reactivity

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