3) COCl2(g)⇄CO(g)+Cl2(g) At a given temperature, the system represented by the chemical equation above is at equilibrium inside a rigid container. Which of the following explains how the system will restore equilibrium, based on the correct relationship between Q and K , after a certain amount of Cl2(g) is added? a)Since Q=[Cl2][CO]/[COCl2] , when Cl2(g) is added to the system Q>K and the system will restore equilibrium by producing more COCl2(g) . b) Since Q=[Cl2][CO]/[COCl2] , when Cl2(g) is added to the system QK and the system will restore equilibrium by producing more COCl2(g) . d) Since Q=[COCl2]/[CO][Cl2] , when Cl2(g) is added to the system Q>K and the system will restore equilibrium by producing more CO(g) .

3) COCl2(g)⇄CO(g)+Cl2(g)
At a given temperature, the system represented by the chemical equation above is at equilibrium inside a rigid container. Which of the following explains how the system will restore equilibrium, based on the correct relationship between Q and K , after a certain amount of Cl2(g) is added?
a)Since Q=[Cl2][CO]/[COCl2] , when Cl2(g) is added to the system Q>K and the system will restore equilibrium by producing more COCl2(g) .
b) Since Q=[Cl2][CO]/[COCl2] , when Cl2(g) is
added to the system Q<K and the system will
restore equilibrium by producing more CO(g) .
c) Since Q=[COCl2]/[CO][Cl2] , when Cl2(g) is
added to the system Q>K and the system will
restore equilibrium by producing more COCl2(g) .
d) Since Q=[COCl2]/[CO][Cl2] , when Cl2(g) is added to
the system Q>K and the system will restore equilibrium by producing more CO(g) .