Normal boiling point of carbon disulfide has to be calculated. Concept Introduction: Δ S ° refers to standard entropy of the reaction which is termed as entropy change in a reaction under standard conditions of 298 K and 1 atm pressure. It is represented as, Δ S ° = S ° ( p r o d u c t s ) − S ° ( r e a c tan t s ) Δ H ° refers to standard enthalpy change . Change in enthalpy in a reaction and heat of formation are related by the formula, Δ H r x n ° = Σ Δ H f ° ( p r o d u c t ) − Σ Δ H f ° ( r e a c tan t ) Where, Δ H r x n ° = enthalpy change in reaction Δ H f ° ( p r o d u c t ) = enthalpy or heat of formation of product Δ H f ° ( r e a c tan t ) = enthalpy or heat of formation of r e a c tan t Standard free energy change of a reaction is related to equilibrium constant of a reaction as, Δ G ° = − RT ln K Where, Δ G ° = standard free energy change R = Universal gas constant T = Temperature K = equilibrium constant

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Chapter 16, Problem 16.129CHP

Interpretation Introduction

Interpretation:

Normal boiling point of carbon disulfide has to be calculated.

Concept Introduction:

ΔS° refers to standard entropy of the reaction which is termed as entropy change in a reaction under standard conditions of 298K and 1 atm pressure. It is represented as,

ΔS°=S°(products)−S°(reactants)

ΔH° refers to standard enthalpy change. Change in enthalpy in a reaction and heat of formation are related by the formula,

ΔHrxn°=ΣΔHf°(product)−ΣΔHf°(reactant)

Where,

ΔHrxn° = enthalpy change in reactionΔHf°(product) = enthalpy or heat of formation of productΔHf°(reactant) = enthalpy or heat of formation of reactant

Standard free energy change of a reaction is related to equilibrium constant of a reaction as,

ΔG°=− RT ln K

Where,

ΔG° = standard free energy changeR = Universal gas constantT = TemperatureK = equilibrium constant

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