Chemistry
Chemistry
9th Edition
ISBN: 9781133611097
Author: Steven S. Zumdahl
Publisher: Cengage Learning
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Chapter 5, Problem 130AE
Interpretation Introduction

Interpretation:

From the given data, molecular formula of the compound should be determined.

Concept introduction:

Effusion is used to describe the passage of a gas through a tiny particle into an evacuated chamber.

The rate of effusion is the measure speed at which the gas is transferred to the chamber.  According to Thomas Graham the rate of effusion of a gas is inversely proportional to the square root of the mass of its particles.

The relative rate of effusion of two gases at the same temperature and pressure are the inverse ratio of the square root of the masses of the gases particles. That is,

Rateofeffusionforgas1Rateofeffusionforgas2=M2M1orRate1Rate2=(M2M1)1/2

M1andM2arethemolarmassesoftwogases

This equation is known as Graham’s law of effusion.

  • Empirical formula can be determined from the mass per cent as given below
    1. 1. Convert the mass per cent to gram
    2. 2. Determine the number of moles of each elements
    3. 3. Divide the mole value obtained by smallest mole value
    4. 4. Write empirical formula by mentioning the numbers after writing the symbols of respective elements
  • Molecular formula can be write by the following steps
    1. 1. Determine the empirical formula mass
    2. 2. Divide the molar mass by empirical formula mass

      MolarmassEmpiricalformula=n

    3. 3. Multiply the empirical formula by n

Mass%ofanelement=MassofthatelementinthecompoundMolarmassofthecompound×100

To find: The molecular formula of a compound from the given data

Expert Solution & Answer
Check Mark

Answer to Problem 130AE

Molecularformulaofthecompound=CH6N2

Explanation of Solution

The mass percent from the given data is,

26.1%Carbon13.1%Hydrogen61.0%Nitrogen

Mass % of carbon

Since,completecombustionof35.0mgofthecompoundproduced33.5mgCO2and41.1mgH2ONumber ofmolesofcarbon dioxide =GivenmassMolecularmassSince,35.0 mgof thecompoundis combusted to produce33.5gCO2Givenmass=33.5mgMolecularmassofCO2=44.01mgNumber ofmolesofcarbon dioxide = 33.5mgCO244.01mgCO2=0.761molEverymoleofCO2willcontains1moleofcarbonand2molesofoxygen.Since,everymoleofCO2containsonemoleofcarbonNumberofmolesofcarbon=0.761molMassofcarboninthecompound=Number ofmolesofcarbon×atomic massofcarbonMassofcarboninthecompound=0.761mol×12.01mgC=9.14mgCMass%ofanelement=MassofthatelementinthecompoundMolarmassofthecompound×100Since,35.0 mgof thecompoundis combusted to produce33.5gCO2Molarmassofthecompound=35.0mgMass%ofcarbon=9.14mgC35.0mg×100=26.1%C

Mass % of Hydrogen

Since,completecombustionof35.0mgofthecompoundproduced33.5mgCO2and41.1mgH2ONumber ofmolesofwater =GivenmassMolecularmassSince,35.0 mgof thecompoundis combusted to produce41.1mgH2OGivenmass=41.1mgMolecularmassofH2O= 18.02 mgNumber ofmolesofwater = 41.1mg18.02mg=2.27molEverymoleofH2Ocontains2molesofHydrogenand1moleofoxygen.NumberofmolesofHydrogen= 2×2.284.54molMassofHydrogeninthecompound=Number ofmolesofHydrogen×AtomicmassofHydrogenMassofHydrogeninthecompound=4.54mol×1.008mgH=4.60mgHMass%ofanelement=MassofthatelementinthecompoundMolarmassofthecompound×100Since,35.0 mgof thecompoundis combusted to produce41.1mgH2OMolarmassofthecompound=35.0gMass%ofHydrogen=4.60mgH35.0g×100=13.1%H

Mass % of Nitrogen

The Partial pressure of N2 is 740torr=740torr×1atm760torr=0.973atm .

The volume of N2 gas is given as 35.6mL=35.6mL×1L1000mL=35.6×103L .

The temperature of N2 gas is given as 25oC=(25+273)K=298K .

The equation for finding number of moles of a substance,

According to ideal gas equation,

Numberofmoles=Pressure×VolumeR×Temperature

Numberofmoles=0.973atm×35.6×103L0.08206Latm/Kmol×298K =1.42×10-3mol

Numberofmolesof Nitroogen=1.42×10-3molMassof Nitrogenin thecompound=Number ofmolesofNitrogen×MolecularmassofnitrogenMassofNitrogeninthecompound=1.42×10-3mol×28.02g=3.98×10-2=39.8mgMass%ofanelement=MassofthatelementinthecompoundMolarmassofthecompound×100Molarmassofthecompound=65.2mgMass%ofNitrogen=39.8mg65.2mg×100=61.0%NMass%ofNitrogen=100.0-(26.1+13.1)=60.8%

The conversion of mass percent to gram is,

26.1%Carbon= 26.1g13.1%Hydrogen =13.1 g60.8%Nitrogen = 60.8g

First step to determine the empirical formula is to convert the mass percent to gram.

Here the given gasses are carbon, hydrogen

Percentage composition of carbon, hydrogen and nitrogen out of 100 g of compound.  Are 26.1%, 13.1% and 60.8% respectively.

The number of moles of each element is

Numberofmolesofcarbon=2.17molNumberofmolesofhydrogen=13.01molNumberofmolesofnitrogen=4.34mol

 Numberofmoles from its given mass is,Numberofmoles=GivenmassingramMolecularmassMassesofcarbon,nitrgen,andhydrgrogenaregivenabove.MolecularmassesofCarbon=12.01gNitogen=14.01gHydrogen=1.008gNumberofmolesofcarbon=26.1g12.01g=2.17molNumberofmolesofhydrogen=13.1g1.008g=13.00molNumberofmolesofnitrogen=60.8g14.01g=4.34mol

From the mole values, smallest mole value is 2.17

Numberofmolesofcarbon=2.17molNumberofmolesofhydrogen=13.0molNumberofmolesofnitrogen=4.34molInthecaseofcarbon,Ratioofmolevaluetosmallestmolevalue=2.172.17=1.00Inthecaseofhydrogen,Ratioofmolevaluetosmallestmolevalue13.02.17=6.00Inthecaseofnitrogen,Ratioofmolevaluetosmallestmolevalue=4.342.17=2.00

Empirical formula can be determined by dividing the mole value of each gas to smallest mole value gas.

RatioofmolevaluetosmallestmolevalueofeachgasesisC:H:N=1:6:2

So, the empirical formula is CH6N2

AccordingtoThomasGraham,Rateofeffusionforgas1Rateofeffusionforgas2=M2M1orRate1Rate2=(M2M1)1/2M1andM2arethemolarmassesofgas1andgas2Rateofeffusionforgas1=26.4Rateofeffusionforgas2=24.6Here,Gas1=ArgonM1=39.95Rate1Rate2=(M39.95)1/2=26.424.6=1.07M=(1.07)2×39.95=45.7g/mol

EmpiricalformulaisCH6N2.TheempiricalformulamassofCH6N2  1×12+ 1×6+2×14 = 46.0g/mol

n=MolarmassEmpiricalformulaMolar mass of the given compound is=45.7g/molEmpirical formula mass=46.0g/moln=45.7g/mol46.0g/mol=1

By multiplying the empirical formula by n molecular formula of the compound should obtain.

n=1andempiricalofthecompound=CH6N2(CH6N2)×1=CH6N2So,themolecularformulaofthecompoundisCH6N2

Conclusion

From the given data, molecular formula of the compound was determined.

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Chapter 5 Solutions

Chemistry

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