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Science Chemistry Chemistry: Atoms First V1

From the given graph the molar heat of vaporization has to be calculated. Concept Introduction: Molar heat of vaporization: Molar heat of vaporization of the liquid is the amount of heat required to vaporize one mole of the liquid at its boiling point. Vapor pressure of the liquid is defined as the pressure of its vapor state when it is in equilibrium with the liquid state. Vapor pressure of a liquid can be related to molar heat of vaporization of the liquid by Clausius – Clapeyron equation as follows – ln P = -ΔH vap R [ 1 T ] + C Where P = vapor pressure ; R = Universal Gas constant T = Temperature ; ΔH vap = molar heat of vaporization C = constant At two different temperatures, a substance has two different vapor pressure. In this case the Clausius – Clapeyron equation becomes, ln P 1 P 2 = ΔH vap R [ 1 T 2 - 1 T 1 ] Where P 1 = vapor pressure of the liquid at temperature T 1 . P 2 = vapor pressure of the liquid at temperature T 2 . ΔH vap = Molar heat of vaporization R = Universal Gas constant .

From the given graph the molar heat of vaporization has to be calculated. Concept Introduction: Molar heat of vaporization: Molar heat of vaporization of the liquid is the amount of heat required to vaporize one mole of the liquid at its boiling point. Vapor pressure of the liquid is defined as the pressure of its vapor state when it is in equilibrium with the liquid state. Vapor pressure of a liquid can be related to molar heat of vaporization of the liquid by Clausius – Clapeyron equation as follows – ln P = -ΔH vap R [ 1 T ] + C Where P = vapor pressure ; R = Universal Gas constant T = Temperature ; ΔH vap = molar heat of vaporization C = constant At two different temperatures, a substance has two different vapor pressure. In this case the Clausius – Clapeyron equation becomes, ln P 1 P 2 = ΔH vap R [ 1 T 2 - 1 T 1 ] Where P 1 = vapor pressure of the liquid at temperature T 1 . P 2 = vapor pressure of the liquid at temperature T 2 . ΔH vap = Molar heat of vaporization R = Universal Gas constant .

Chemistry: Atoms First V1

Chemistry: Atoms First V1

1st Edition

ISBN: 9781259383120

Author: Burdge

Publisher: McGraw Hill Custom

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Question

Chapter 12.2, Problem 12.2.4SR

Interpretation Introduction

Interpretation:

From the given graph the molar heat of vaporization has to be calculated.

Concept Introduction:

Molar heat of vaporization:

Molar heat of vaporization of the liquid is the amount of heat required to vaporize one mole of the liquid at its boiling point.

Vapor pressure of the liquid is defined as the pressure of its vapor state when it is in equilibrium with the liquid state. Vapor pressure of a liquid can be related to molar heat of vaporization of the liquid by Clausius – Clapeyron equation as follows –

ln P = -ΔHvapR[1T]+ CWhere P = vapor pressure ; R = Universal Gas constant T = Temperature ; ΔHvap= molar heat of vaporization C = constant

At two different temperatures, a substance has two different vapor pressure. In this case the Clausius – Clapeyron equation becomes,

ln P1P2 = ΔHvap R [1T2 - 1T1]Where P1 = vapor pressure of the liquid at temperature T1. P2 = vapor pressure of the liquid at temperature T2. ΔHvap = Molar heat of vaporization R = Universal Gas constant.

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Chapter 12.2, Problem 12.2.3SR

Chapter 12.3, Problem 12.2WE

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Chapter 12 Solutions

Chemistry: Atoms First V1

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