The equation for the reaction between carbon dioxide and hydrogen is shown below. CO 2 ( g ) + 4 H 2 ( g ) → CH 4 ( g ) + 2 H 2 O ( g ) The table shows the standard entropy values of the substances in the reaction above. Substance CO 2 ( g ) H 2 ( g ) CH 4 ( g ) H 2 O ( g ) S ⊝ / JK - 1 mol - 1 214 131 186 189 Calculate the standard entropy change for the reaction. Explain how the sign can be predicted from the equation for the reaction.

To calculate the standard entropy change associated with a reaction we find the difference between the total entropy of the products and the total entropy of the reactants: ∆ S ⊝ ( reaction ) = ∑ S ⊝ ( products ) - ∑ S ⊝ ( reactants ) = S ⊝ ( CH 4 ) + 2 S ⊝ ( H 2 O ) - S ⊝ ( CO 2 ) + 4 S ⊝ ( H 2 ) = 186 + 2 ( 189 ) - 214 - 4 ( 131 ) = - 174 J K - 1 mol - 1 The negative entropy change associated with this chemical reaction indicates a decrease in disorder (greater order), with 5 mol of gas changing into 3 mol of gas.

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Oxford IB Diploma Programme Chemistry Course Companion>Chapter 15 - Energetics and Thermochemistry (AHL)>Quick questions

Sergey Bylikin, Gary Horner and, Brian Murphy Solutions for Chapter: Energetics and Thermochemistry (AHL), Exercise 3: Quick questions

Author:Sergey Bylikin, Gary Horner & Brian Murphy

Sergey Bylikin Chemistry Solutions for Exercise - Sergey Bylikin, Gary Horner and, Brian Murphy Solutions for Chapter: Energetics and Thermochemistry (AHL), Exercise 3: Quick questions

Attempt the practice questions on Chapter 15: Energetics and Thermochemistry (AHL), Exercise 3: Quick questions with hints and solutions to strengthen your understanding. Oxford IB Diploma Programme Chemistry Course Companion solutions are prepared by Experienced Embibe Experts.