Chemistry
Chemistry
4th Edition
ISBN: 9780393919370
Author: Thomas R. Gilbert
Publisher: NORTON
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Chapter 5, Problem 5.131AP
Interpretation Introduction

Interpretation: The final temperature of the solution for the given data is to be calculated.

Concept introduction: The heat lost or coming out of mixed solution (qmix,lost) is equal to heat gained (qmix,gain) by solution.

qmix,lost=qmix,gain

To determine: The final temperature of the solution for the given data.

Expert Solution & Answer
Check Mark

Answer to Problem 5.131AP

Solution

The final temperature of the solution for the given data is 38.50°C_ .

Explanation of Solution

Explanation

Given

The mass of sodium hydroxide (mNaOH) is 5.00g .

The mass of potassium hydroxide (mKOH) is 4.20g .

The volume of water (VH2O) is 150mL .

The specific heat of solution (cp,soln) is 75.3J/(mol°C) .

The initial temperature (Ti) of the solution is 23°C .

The enthalpy of sodium hydroxide solution (ΔHsoln,NaOH) is 44.3kJ/mol .

The enthalpy of potassium hydroxide solution (ΔHsoln,KOH) is 56.0kJ/mol .

The number of moles of sodium hydroxide (nNaOH)  is calculated by the formula,

nNaOH=mNaOHMNaOH (1)

Where,

  • mNaOH is mass of NaOH .
  • MNaOH is the molar mass of NaOH .

The molar mass of NaOH is =1×Na+1×O+1×H=1×22.99g/mol+1×15.99g/mol+1×1.008g/mol=22.99g/mol+15.99g/mol+1.008g/mol=39.988g/mol

Substitute the values of mNaOH and MNaOH in equation (1)

nNaOH=5.00g39.988g/mol=0.125mol

The heat coming out from NaOH solution (qNaOH) is calculated by the formula,

qNaOH=nNaOH×ΔHsoln,NaOH (2)

Where,

  • nNaOH is number of moles of NaOH .
  • ΔHsoln,NaOH is enthalpy of sodium hydroxide solution.

Substitute the values of nNaOH and ΔHsoln,NaOH in equation (2).

qNaOH=0.125mol×44.3kJ/mol=5.5375kJ

The number of moles of potassium hydroxide (nKOH)  is calculated by the formula,

nKOH=mKOHMKOH (3)

Where,

  • mKOH is mass of KOH .
  • MKOH is the molar mass of KOH .

The molar mass of KOH is =1×K+1×O+1×H=1×39.098g/mol+1×15.99g/mol+1×1.008g/mol=39.098g/mol+15.99g/mol+1.008g/mol=56.096g/mol

Substitute the values of mKOH and MKOH in equation (3).

nKOH=4.20g56.096g/mol=0.0748mol

The heat coming out from KOH solution (qKOH) is calculated by the formula,

qKOH=nKOH×ΔHsoln,KOH (4)

Where,

  • nKOH is number of moles of KOH .
  • ΔHsoln,KOH is enthalpy of sodium hydroxide solution.

Substitute the values of nKOH and ΔHsoln,KOH in equation (4).

qKOH=0.0748mol×56.0kJ/mol=4.18kJ

The total heat coming out or lost from mixture of solution (qmix,lost) is expressed as,

qmix,lost=qNaOH+qKOH (5)

Where,

  • qNaOH is heat coming out from NaOH solution.
  • qKOH is heat coming out from KOH solution.

Substitute the values of qNaOH and qKOH in equation (5).

qmix,lost=5.5375kJ+4.18kJ=9.726kJ

To convert the above value in joules, use conversion factor.

1kJ=103J9.726kJ=9.726×103J

The new qmix,lost value in joules (qmix,lost(J)) is 9.726×103J .

The heat lost or coming out of mixed solution (qmix,lost) is equal to heat gained (qmix,gain) by solution.

qmix,lost=qmix,gain (6)

The heat gained (qmix,gain) by solution is calculated by the formula,

qmix,gain=nH2O×cp,soln×(TfTi) (7)

Where,

  • nH2O is the number of moles of water.
  • cp,soln is the specific heat of solution.
  • Tf is the final temperature of solution.
  • Ti is the initial temperature of solution.

The number of moles of water (nH2O) is calculated by the formula,

nH2O=ρH2O×VH2OMH2O (8)

Where,

  • ρH2O is the density of water.
  • VH2O is the volume of water.
  • MH2O is the molar mass of water.

The density (ρH2O) of water is 1g/mL .

The molar mass (MH2O) of water is =2×H+1×O=2×1.008g/mol+1×15.99g/mol=18.006g/mol

Substitute the values of ρH2O , VH2O , and MH2O in equation (8).

nH2O=1g/mL×150.00mL18.006g/mol=8.33mol

Substitute the values of nH2O , cp,soln and Ti in equation (7).

qmix,gain=8.33mol×75.3J/(mol°C)×(Tf23°C)=627.24J/°C×(Tf23°C)

Substitute the values of qmix,gain and qmix,lost(J) in equation (6).

(9.726×103J)=627.24J/°C×(Tf23°C)9.726×103J627.24J/°C=(Tf23°C)15.50°C=(Tf23°C)Tf=23°C+15.50°C

Simplify the above expression.

Tf=38.50°C

Thus, the final temperature of the solution for the given data is 38.50°C_

Conclusion

The final temperature of the solution for the given data is 38.50°C_

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