A chemical system is considered to have reached dynamic equilibrium when the rate of production of each of the product species is equal to the rate of consumption of each of the product species by the reverse reaction. the rate of production of each of the product species is equal to the rate of consumption of each of the reactant species by the reverse reaction. the rate of production of each of the product species by the forward reaction is equal to the rate of production of each of the reactant species by the reverse reaction. the sum of the concentrations of each of the reactant species is equal to the sum of the concentrations of each of the product species. the rate of consumption of each of the product species by the reverse reaction is equal to the rate of production of each of the reactant species by the reverse reaction.

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
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A chemical system is considered to have reached dynamic equilibrium when
the rate of production of each of the product species is equal to the rate of consumption of each of the product species by the reverse reaction.
the rate of production of each of the product species is equal to the rate of consumption of each of the reactant species by the reverse reaction.
the rate of production of each of the product species by the forward reaction is equal to the rate of production of each of the reactant species by the reverse reaction.
the sum of the concentrations of each of the reactant species is equal to the sum of the concentrations of each of the product species.
the rate of consumption of each of the product species by the reverse reaction is equal to the rate of production of each of the reactant species by the reverse reaction.
२
Transcribed Image Text:A chemical system is considered to have reached dynamic equilibrium when the rate of production of each of the product species is equal to the rate of consumption of each of the product species by the reverse reaction. the rate of production of each of the product species is equal to the rate of consumption of each of the reactant species by the reverse reaction. the rate of production of each of the product species by the forward reaction is equal to the rate of production of each of the reactant species by the reverse reaction. the sum of the concentrations of each of the reactant species is equal to the sum of the concentrations of each of the product species. the rate of consumption of each of the product species by the reverse reaction is equal to the rate of production of each of the reactant species by the reverse reaction. २
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