Which of the following explains the term "dynamic" as applied to chemical equilibrium? Group of answer choices The reaction continues to convert reactants to products, and products to reactants when the concentrations are equal , but with no net change in concentration at equilibrium. Products can form reactants until equilibrium is established. Reactants can form products until equilibrium is established. The reaction continues to convert reactants to products, and products to reactants when the reaction rates are equal, but with no net change in concentration at equilibrium. The reaction stops when equilibrium is reached
Which of the following explains the term "dynamic" as applied to chemical equilibrium? Group of answer choices The reaction continues to convert reactants to products, and products to reactants when the concentrations are equal , but with no net change in concentration at equilibrium. Products can form reactants until equilibrium is established. Reactants can form products until equilibrium is established. The reaction continues to convert reactants to products, and products to reactants when the reaction rates are equal, but with no net change in concentration at equilibrium. The reaction stops when equilibrium is reached
Chemistry: Matter and Change
1st Edition
ISBN:9780078746376
Author:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl Wistrom
Publisher:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl Wistrom
Chapter17: Chemical Equilibrium
Section: Chapter Questions
Problem 1STP
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Which of the following explains the term "dynamic" as applied to
Group of answer choices
The reaction continues to convert reactants to products, and products to reactants when the concentrations are equal , but with no net change in concentration at equilibrium.
Products can form reactants until equilibrium is established.
Reactants can form products until equilibrium is established.
The reaction continues to convert reactants to products, and products to reactants when the reaction rates are equal, but with no net change in concentration at equilibrium.
The reaction stops when equilibrium is reached.
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