Chemistry: The Molecular Science
Chemistry: The Molecular Science
5th Edition
ISBN: 9781285199047
Author: John W. Moore, Conrad L. Stanitski
Publisher: Cengage Learning
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Chapter 9, Problem 35QRT
Interpretation Introduction

Interpretation:

The total heat energy required to change 0.5 mole of ice at 5C to 0.5 mole of steam at 100C has to be calculated.

Concept Introduction:

Calculation of heat energy:

When both the phases are same, ΔH0=m×s×Δθ

When two phases are different, ΔH0=n×ΔfusorvapH0

Expert Solution & Answer
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Answer to Problem 35QRT

The total heat energy required to change 0.5 mole of ice at 5C to 0.5 mole of steam at 100C  is 27kJ.

Explanation of Solution

Given data:

The heat capacities of solid ice and liquid water are 2.06Jg1C1 and 4.184Jg1C1 respectively. The fusion of enthalpy for solid ice is 6.02kJ/mol. The vaporization enthalpy of liquid water is 40.7kJ/mol.

Calculation of mass of ice:

  No. of moles (n)=mMm=n×M=0.5mol×18.0152gmol=9.0g.

  1. 1. Heat the ice from -5oC to 0oC

The heat energy required for 9.0g of ice to melt can be calculated as given below.

  ΔH0=m×s×Δθ=(9g)(2.06Jg1C1)[(0C)(5C)]=92.7J=92.7J×1kJ1000J=0.0927kJ.

Where, m= mass of ice, s= Specific heat of solid ice and Δθ= Temperature difference.

  1. 2. Melt the ice at 0oC

The heat energy required for this process can be calculated as given below.

  ΔH0=n×ΔfusH0=0.5mol×6.020kJmol=3.01kJ.

Where, n= No. of moles of ice and ΔfusH0= Fusion enthalpy of solid ice.

  1. 3. Heat the water from 0oC to 100oC

The heat energy required for this process can be calculated as given below.

  ΔH0=m×s×Δθ=(9g)(4.184Jg1C1)[(100C)(0C)]=3765.6J=3765.6J×1kJ1000J=3.7656kJ/mol.

Where, m= mass of water, s= Specific heat of liquid water and Δθ= Temperature difference.

  1. 4. Boil the water at 100oC

The heat energy required for this process can be calculated as given below.

  ΔH0=n×ΔvapH0=0.5mol×40.7kJmol=20.35kJ.

Where, n= No. of moles of water and ΔvapH0= Enthalpy of vaporization of liquid water.

Now, the total heat energy required to change 0.5 mole of ice at 5C to 0.5 mole of steam at 100C is the sum total of all the heat energies required for each transition:

  ΔH=0.0927kJ+3.01kJ+3.7656kJ+20.35kJ=27.2183kJ27kJ.

Therefore, the total heat energy required to change 0.5 mole of ice at 5C to 0.5 mole of steam at 100C has been calculated to be 27kJ.

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Chapter 9 Solutions

Chemistry: The Molecular Science

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