12.39) The following reaction establishes equilibrium at 2000 K: N2(g)+O2(g)⇌ 2NO K= 4.1x10^4 If the reaction began with 0.100 mol L^1 of N2 and 0.100 mol L^1 of O2, what were the equilibrium concentrations of all species? 12.40) The reaction in Exercise 12.39 was repeated. This time, the reaction began when only NO was injected into the reaction container. If 0.200 mol L^1 NO was injected, what were the equilibrium concentrations of all species? 12.42) The experiment in Exercise 12.39 was redesigned with 0.15 mol each of N2 and O2 were injected into a 1.0-L container at 2500 K. The equilibrium constant at 2500 K is 3.6x10^-3. What was the composition of the reaction mixture after equilibrium was attained?
12.39) The following reaction establishes equilibrium at 2000 K:
N2(g)+O2(g)⇌ 2NO K= 4.1x10^4
If the reaction began with 0.100 mol L^1 of N2 and 0.100 mol L^1 of O2, what were the equilibrium concentrations of all species?
12.40) The reaction in Exercise 12.39 was repeated. This time, the reaction began when only NO was injected into the reaction container. If 0.200 mol L^1 NO was injected, what were the equilibrium concentrations of all species?
12.42) The experiment in Exercise 12.39 was redesigned with 0.15 mol each of N2 and O2 were injected into a 1.0-L container at 2500 K. The equilibrium constant at 2500 K is 3.6x10^-3. What was the composition of the reaction mixture after equilibrium was attained?
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