Explanation The reaction with 5.8 as the equilibrium constant is as follows: A ( g ) ⇌ B ( g ) The value of reaction quotient is 336. At 298 K, the value of Δ G o r x n is calculated with the help of following equation: Δ G o rxn = − R T ln K Here, R is the universal gas constant, T is the temperature, and K is the equilibrium constant. Substitute the respective values in the above equation, Δ G o rxn = − 8.314 J mol× K × 298 K × ln 5.8 = − 4335 J The value of Δ G o r x n is negative that means condition Δ G o r x n < 0 is satisfied. Calculate the value of Δ G o with the help of following solutions: Δ G o rxn = Δ G o rxn + R T ln Q Here, Q is the reaction quotient

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Chapter 18, Problem 117E

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Interpretation: The sign of ΔGorxn and Δ G_rxn for the following reaction that has an equilibrium constant of of 5.8 is to be determined.

A(g) ⇌ B(g)

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Chapter 18, Problem 116E

Chapter 18, Problem 118QGW

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Chapter 18 Solutions

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The sign of Δ G o r x n and Δ G rxn for the following reaction that has an equilibrium constant of of 5.8 is to be determined. A( g ) ⇌ B( g )

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Interpretation: The sign of ΔGorxn and Δ Grxn for the following reaction that has an equilibrium constant of of 5.8 is to be determined. A(g) ⇌ B(g)

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Chapter 18 Solutions

Interpretation: The sign of ΔGorxn and Δ G_rxn for the following reaction that has an equilibrium constant of of 5.8 is to be determined.

A(g) ⇌ B(g)