Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition
Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition
10th Edition
ISBN: 9781305957510
Author: ZUMDAHL, Steven S.; Zumdahl, Susan A.; DeCoste, Donald J.
Publisher: Cengage Learning
Question
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Chapter 5, Problem 130E
Interpretation Introduction

Interpretation: For the given data, mixing ratio and number of molecules per cubic centimeter for both benzene and toluene should be determined.

Concept introduction:

  • Mixing ratio is used to express the concentration of trace compounds in air. Mixing ratios are often expressed as ppmv (parts per million volume);

    ppmvofX=volumeofXatSTPtotalvolumeofairatSTP×106

  • Number of moles of a substance,

    From its given mass is,

Number of moles=GivenmassMolecularmass

Numberofmolecules=Numberofmoles×6.022×1023moleculesmol

  • By combining the three gaseous laws namely Boyle’s law, Charles’s law and Avogadro’s law a combined gaseous equation is obtained. This combined gaseous equation is called Ideal gas law.

According to ideal gas law,

PV=nRT

By rearranging the equation, unknown volume can be determined as,

V=nRTP

Where,

P = pressure in atmospheres

V= volumes in liters

n = number of moles

R =universal gas constant ( 0.08206L×atm/K×mol )

T = temperature in kelvins

Expert Solution & Answer
Check Mark

Answer to Problem 130E

Answer

  • Mixing ratio of benzene  =9.47×10-3ppmv
  • Mixing ratio of toluene   =1.37×10-2ppmv
  • Number of molecules per cubic centimeter for benzene 

=2.31×1011moleculesbenzene/cm3

  • Number of molecules per cubic centimeter for toluene

=3.33×1011moleculestoluene/cm3

Explanation of Solution

Explanation

  • To determine: The mixing ratio of benzene

Mixing ratio of benzene  =9.47×10-3ppmv

Forbenzene,Tocalculatethemixingratio,numberofmolesandvolumeofbenzeneshouldbedetermined.Number of moles=GivenmassMolecularmassGivenmass=89.6×10-9gMolecularmass=78.11gNumberofmoles(nbenzene)=89.6×10-9g78.11g=1.15×10-9molbenzeneVolumeofbenzene=nbenzene×TPR=0.08206L×atm/K×molT=23°C=296KSince,K=°C+273=23°C+273=296KP=748torr=0.99atmSince,1atm=760torr748torr=748760atm=0.99atmVbenzene=1.15×10-9mol×296K×0.08206 LatmKmol0.99atm=2.84×10-8LMixingratio=volumeofXatSTPtotalvolumeofairatSTP×106Vbenzene=2.84×10-8LTotalvolume ofthesample=3.00LMixingratio=2.84×10-8L3.00L×106=9.47×10-3ppmv

  • To determine: Number of molecules per cubic centimeter of benzene.

Number of molecules per cubic centimeter for benzene

=2.31×1011moleculesbenzene/cm3

Numberofmoleculespercubiccentimetre=Numberofmoles×6.022×1023moleculesmolTotalvolumeofthesample=3.0LNumberofmolespervolumeofthesample=1.15×10-9molbenzene3.00LSince,1L=1000cm3Numberofmolespercubiccentimetre=1.15×10-9molbenzene3.00L×11000cm3Numberofmoleculespercubiccentimetre=1.15×10-9molbenzene3.00L×11000cm3×6.022×1023moleculesmol=2.31×1011moleculesbenzene/cm3

  • To determine: The mixing ratio of toluene

Mixing ratio of toluene =1.37×10-2ppmv

Fortoluene,Tocalculatethemixingratio,numberofmolesandvolumeofbenzeneshouldbedetermined.Number of moles=GivenmassMolecularmassGivenmass=153×10-9gMolecularmass=92.13gNumberofmoles(ntoluene)=153×10-9g92.13g=1.66×10-9moltolueneVolumeoftoluene=ntoluene×TPR=0.08206L×atm/K×molT=23°C=296KSince,K=°C+273=23°C+273=296KP=748torr=0.99atmSince,1atm=760torr748torr=748760atm=0.99atmVtoluene=1.66×10-9mol×296K×0.08206 LatmKmol0.99atm=4.10×10-8LMixingratio=volumeofXatSTPtotalvolumeofairatSTP×106Vtoluene=4.10×10-8LTotalvolume ofthesample=3.00LMixingratio=4.10×10-8L3.00L×106=1.37×10-2ppmv

  • To determine: Number of molecules per cubic centimeter of toluene.

Number of molecules per cubic centimeter for toluene

=3.33×1011moleculestoluene/cm3

Numberofmoleculespercubiccentimetre=Numberofmoles×6.022×1023moleculesmolTotalvolumeofthesample=3.0LNumberofmolespervolumeofthesample=1.66×10-9moltoluene3.00LSince,1L=1000cm3Numberofmolespercubiccentimetre=1.66×10-9moltoluene3.00L×11000cm3Numberofmoleculespercubiccentimetre=1.66×10-9moltoluene3.00L×11000cm3×6.022×1023moleculesmol=3.33×1011moleculestoluene/cm3

Conclusion

Conclusion

Mixing ratio and number of molecules per cubic centimeter for both benzene and toluene is determined on the basis of respective equations.

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Chapter 5 Solutions

Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition

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