Predict the equilibrium concentration of CO: in the reaction describedbelow by constructing an equilibrium expression for Qc, constructing anICE table, writing an equilibrium expression for Kc, and solving for theequilibrium concentration. Complete Parts 1-4 before submitting youranswer.Co(g) + H:O(g) = CO:(g) + H:(g)1234NEXT >In a 2.0 L container at 700 K, 0.13 mol CO, 0.56 mol H:O, 1.62 mol CO:, and 0.43 mol H:are allowed to react. Set up the expression for Qc. Each reaction participant must berepresented by one tile. Do not combine terms.Once the expression is constructed, solve for Qc to determine the direction of thereaction.Qc5 RESET[0.13][0.56][1.62][0.43][0.065][0.28][0.81][0.22][0.26][0.13][1.62][0.065)[0.28]0.10963.19.8||

Answer: Qc is known as reaction quotient and it is the ratio of the active masses of products and…

In a 2.0 L container at 700 K, 0.13 mol CO, 0.56 mol H:O, 1.62 mol CO:, and 0.43 mol H: are allowed to react. Set up the expression for Qc. Each reaction participant must be represented by one tile. Do not combine terms. Once the expression is constructed, solve for Qc to determine the direction of the reaction. Qc

In a 2.0 L container at 700 K, 0.13 mol CO, 0.56 mol H:O, 1.62 mol CO:, and 0.43 mol H: are allowed to react. Set up the expression for Qc. Each reaction participant must be represented by one tile. Do not combine terms. Once the expression is constructed, solve for Qc to determine the direction of the reaction. Qc

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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