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Science Chemistry CHEMISTRY (LL) W/CNCT >BI<

Δ H 0 for the given reaction has to be determined graphically. Concept introduction: The van’t Hoff equation relates the temperature dependence of K c to the reaction enthalpy change. ln K = − Δ H 0 R T + C Where, T is the temperature. Δ H 0 Standard enthalpy change R is the universal gas constant C is the constant. Standard enthalpy change can be determined through graphical method, In the graph of lnK p and, 1 T slope will give the Standard enthalpy change. slope = − Δ H 0 R Δ H 0 = − slope × R

Δ H 0 for the given reaction has to be determined graphically. Concept introduction: The van’t Hoff equation relates the temperature dependence of K c to the reaction enthalpy change. ln K = − Δ H 0 R T + C Where, T is the temperature. Δ H 0 Standard enthalpy change R is the universal gas constant C is the constant. Standard enthalpy change can be determined through graphical method, In the graph of lnK p and, 1 T slope will give the Standard enthalpy change. slope = − Δ H 0 R Δ H 0 = − slope × R

Solution Summary: The author explains how the van't Hoff equation relates the temperature dependence of K_c to the reaction enthalpy change.

CHEMISTRY (LL) W/CNCT >BI<

CHEMISTRY (LL) W/CNCT >BI<

13th Edition

ISBN: 9781260572384

Author: Chang

Publisher: MCG

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Chapter 14, Problem 14.118QP

Interpretation Introduction

Interpretation: ΔH0 for the given reaction has to be determined graphically.

Concept introduction:

The van’t Hoff equation relates the temperature dependence of Kc to the reaction enthalpy change.

ln K = −ΔH0RT + C

Where,

T is the temperature.

ΔH0 Standard enthalpy change

R is the universal gas constant

C is the constant.

Standard enthalpy change can be determined through graphical method,

In the graph of lnKp and,1T slope will give the Standard enthalpy change.

slope = −ΔH0RΔH0 = −slope × R

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Chapter 14, Problem 14.117QP

Chapter 14, Problem 14.119QP

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Chapter 14 Solutions

CHEMISTRY (LL) W/CNCT >BI<

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