The reaction quotient, Q, for a system is 5.1 x 10³. If the equilibrium constant for the system at some temperature is 2.5 x 104, what will happen as the reaction mixture returns to equilibrium? Note: A net gain means that the reaction will shift towards the right or left. For example, a net gain towards the products, means it will shift towards the products to the right. a. The equilibrium constant will increase until it equals the reaction quotient. b. There will be a net gain in both product(s) and reactant(s). c. There will be a net gain in product(s). d. There will be a net gain in reactant(s). e. The equilibrium constant will decrease until it equals the reaction quotient. 2

The reaction quotient, Q, for a system is 5.1 x 10³. If the equilibrium constant for the system at some temperature is 2.5 x 104, what will happen as the reaction mixture returns to equilibrium? Note: A net gain means that the reaction will shift towards the right or left. For example, a net gain towards the products, means it will shift towards the products to the right. a. The equilibrium constant will increase until it equals the reaction quotient. b. There will be a net gain in both product(s) and reactant(s). c. There will be a net gain in product(s). d. There will be a net gain in reactant(s). e. The equilibrium constant will decrease until it equals the reaction quotient. 2

World of Chemistry, 3rd edition

3rd Edition

ISBN:9781133109655

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

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

Chapter17: Equilibrium

Section: Chapter Questions

Problem 39A

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