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 98QRT
Interpretation Introduction

Interpretation:

The total heat energy transfer required to raise the temperature of 10kg liquid ammonia from 50C to 0C has to be calculated.

Concept Introduction:

Calculation of heat energy:

When both the phases are same means a transition is taking place within the same phase like between liquid to liquid, ΔH0=m×s×Δθ

Where, m= mass of substance, s= Specific heat of substance in a particular phase and Δθ= Temperature difference.

When two phases are different means a transition is taking place between two different phases like between solid to liquid, ΔH0=n×ΔfusorvapH0

Where, n= No. of moles of substance , ΔfusH0= Fusion enthalpy of a substance in its solid phase and ΔvapH0= enthalpy of vaporization of a substance in its liquid phase.

Expert Solution & Answer
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Answer to Problem 98QRT

The total heat energy transfer required to raise the temperature of 10kg liquid ammonia from 50C to 0C is 1.6×104kJ.

Explanation of Solution

Given data:

The specific heat capacities of gas and liquid are 2.2Jg1C1 and 4.7Jg1C1. respectively. Its normal boiling point is 33.4C.  The vaporization enthalpy is 23.5kJ/mol.

Calculation of no. of moles of ice:

No. of moles (n)=mM=10kg17.0304g/mol×1000g1kg=5.9×102mol.

  1. 1. Heat it from -50oC to its boiling point -33.4oC

The heat energy absorbed during this process can be calculated as given below.

  ΔH0=m×s×Δθ=(10kg)(4.7Jg1C1)(1kJ1000J)[(33.4C)(50C)]=780kJ.

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

  1. 2. Vaporize the liquid to gas at -33.4oC

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

  ΔH0=n×ΔvapH0=5.9×102mol×23.5kJmol=14000kJ.

  1. 3. Heat it further from -33.4oC to 0oC

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

  ΔH0=m×s×Δθ=(10kg)×(1000g1kg)(0.97Jg1C1)×(1kJ1000J)[(0C)(33.4C)]=730kJ.

Now, the total heat energy transfer required to raise the temperature of 10kg liquid ammonia from 50C to 0C is the sum total of all the heat energies absorbed for each transition:

  ΔH=780kJ+14000kJ+730kJ=1.6×104kJ.

Therefore, the total heat energy transfer required to raise the temperature of 10kg liquid ammonia from 50C to 0C is 1.6×104kJ.

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Chapter 9 Solutions

Chemistry: The Molecular Science

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