Chemistry Principles And Practice
Chemistry Principles And Practice
3rd Edition
ISBN: 9781305295803
Author: David Reger; Scott Ball; Daniel Goode
Publisher: Cengage Learning
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Chapter 5, Problem 5.108QE
Interpretation Introduction

Interpretation:

Amount of CH4 required to burn to heat the air has to be determined.

Concept Introduction:

The temperature change (ΔT) taking place when heat (q) is given to the system depends on amount of the substance (n)and its specific heat(Cs).

  q = nCsΔT

Enthalpy(H): It is the total amount of heat in a particular system.

The value of standard enthalpy change ΔHο of the given reaction is calculated by the formula,

  ΔHrxn=npΔHfο(products)nrΔHfο(reactants)

Where,

ΔHfο is the standard enthalpies of formation.

n is the number of moles.

Expert Solution & Answer
Check Mark

Answer to Problem 5.108QE

Amount of CH4 required to burn to heat the air is 118 g.

Explanation of Solution

Change in temperature is obtained as follows,

  ΔT = TfinalTinitial= (22.0°C)(15.0°C)=7°C

Volume of air is determined as follows,

  Volume = Area×Height(275 m2)(2.50 m) = 687.5 m3 = 687.5 m3×1000 L1 m3= 6.875×105 L

Number of moles of air inside the house can be determined from the density and average molar mass of air values as follows,

  Mass = Density×Volume(1.22 g/L)(6.875×105 L) = 838750 gNo. of moles = MassMolar mass = 838750 g28.9 g/mol= 2.902×104 mol

Heat required to increase the temperature can be determined as follows,

  q = nCsΔT= (2.902×104 mol)(29.1 J/mol.°C)(7°C)= 5.91×106 J = 5.91×103 kJ 

The balanced equation for the combustion of natural gas is given as:

  CH4(g) + 2 O2(g)CO2(g)+ 2 H2O(g)

Standard enthalpy of formation values are given below,

  ΔHfoof CO2(g)=393.51kJ/molΔHfoof H2O(l)=241.82kJ/molΔHfoof CH4(g)=74.81kJ/molΔHfoofO2(g)=0kJ/mol

Change in enthalpy can be calculated by the equation:

  ΔHrxn=npΔHfο(products)nrΔHfο(reactants)

Substitute the values as follows,

  ΔHrxno=[(1 mol×393.51kJ/mol)+(2 mol×241.82kJ/mol)] [(1 mol×74.81kJ/mol)+(2 mol×0kJ/mol)]=802.34kJ

ΔH° for the combustion of one mole of natural gas is 802.34kJ. Hence, energy per gram is determined as follows,

  ΔH° =802.34kJ1 mol×1 mol16.04 g=50.02 kJ/g

Amount of CH4 required to burn to heat the air is determined as follows,

  Mass =5.91×103 kJ 50.02 kJ/g=118 g CH4

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