Assume that the following endothermic chemical reaction is at equilibrium. C(s) + H₂O(g) H₂(g) + CO(g) Which of the following statements is/are CORRECT? 1. Increasing the concentration of H₂(g) will cause the reaction to proceed in the backward direction, increasing the equilibrium concentration of H₂O(g). 2. Decreasing the temperature will cause the reaction to proceed in the forward direction, increasing the equilibrium concentration of CO(g). 3. Increasing the amount of C(s) will cause the reaction to proceed in the forward direction, increasing the equilibrium concentration of CO(g). All statements are correct. 2 only 3 only 1 only 1 & 2 only
Assume that the following endothermic chemical reaction is at equilibrium. C(s) + H₂O(g) H₂(g) + CO(g) Which of the following statements is/are CORRECT? 1. Increasing the concentration of H₂(g) will cause the reaction to proceed in the backward direction, increasing the equilibrium concentration of H₂O(g). 2. Decreasing the temperature will cause the reaction to proceed in the forward direction, increasing the equilibrium concentration of CO(g). 3. Increasing the amount of C(s) will cause the reaction to proceed in the forward direction, increasing the equilibrium concentration of CO(g). All statements are correct. 2 only 3 only 1 only 1 & 2 only
General, Organic, and Biological Chemistry
7th Edition
ISBN:9781285853918
Author:H. Stephen Stoker
Publisher:H. Stephen Stoker
Chapter9: Chemical Reactions
Section: Chapter Questions
Problem 9.90EP: For the reaction C6H6(g)+3H2(g)C6H12(g)+heat determine in what direction the equilibrium will be...
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Transcribed Image Text:Assume that the following endothermic chemical reaction is at equilibrium.
C(s) + H₂O(g) + H₂(g) + CO(g)
Which of the following statements is/are CORRECT?
1. Increasing the concentration of H₂(g) will cause the reaction to proceed in the
backward direction, increasing the equilibrium concentration of H₂O(g).
2. Decreasing the temperature will cause the reaction to proceed in the forward
direction, increasing the equilibrium concentration of CO(g).
3. Increasing the amount of C(s) will cause the reaction to proceed in the forward
direction, increasing the equilibrium concentration of CO(g).
All statements are correct.
2 only
3 only
1 only
1 & 2 only
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