The change in enthalpy for the reaction needs to be determined. Concept introduction: For a general equilibrium reaction as follows: A ( g ) + B ( g ) ⇌ C ( g ) + D ( g ) The expression for the equilibrium constant is represented as follows: K = ( P C ) ( P D ) ( P A ) ( P B ) Here, to calculate the equilibrium constant, the values of partial pressure of all the species in reactant and product side are required. The equilibrium constant of a reaction depends on the temperature. The relation is given by Van’t Hoff equation which is as follows: ln ( K 2 K 1 ) = Δ H R ( 1 T 1 − 1 T 2 ) Here, K is equilibrium constant, R is Universal gas constant, T is temperature and Δ H is change in enthalpy.

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Chapter 12, Problem 60QAP

Interpretation Introduction

Interpretation:

The change in enthalpy for the reaction needs to be determined.

Concept introduction:

For a general equilibrium reaction as follows:

A(g)+B(g)⇌C(g)+D(g)

The expression for the equilibrium constant is represented as follows:

K=(PC)(PD)(PA)(PB)

Here, to calculate the equilibrium constant, the values of partial pressure of all the species in reactant and product side are required.

The equilibrium constant of a reaction depends on the temperature. The relation is given by Van’t Hoff equation which is as follows:

ln(K2K1)=ΔHR(1T1−1T2)

Here, K is equilibrium constant, R is Universal gas constant, T is temperature and ΔH is change in enthalpy.

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