3) At T= 2200K, K = 3200 for the reaction shown below. N2 (g)+ 02 (g) 2 NO (g) a) Using successive approximations, determine the molar concentrations of all species at equilibrium given that the initial molar concentration of N2 was 0.65 M and that the initial molar concentration of 02 was 0.45 M. In this situation, you will have to assume the reaction goes to completion, and then use the method of successive approximations. b) Using the quadratic formula, determine the molar concentrations of all species at equilibrium. In this case, you will NOT need to take the reaction to completion

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3) At T= 2200K, K = 3200 for the reaction shown below.
N2 (g)+ O2 (g) 2 NO (g)
a) Using successive approximations, determine the molar concentrations of all species at
equilibrium given that the initial molar concentration of N2 was 0.65 M and that the
initial molar concentration of 02 was 0.45 M. In this situation, you will have to assume
the reaction goes to completion, and then use the method of successive
approximations.
b) Using the quadratic formula, determine the molar concentrations of all species at
equilibrium. In this case, you will NOT need to take the reaction to completion
Transcribed Image Text:3) At T= 2200K, K = 3200 for the reaction shown below. N2 (g)+ O2 (g) 2 NO (g) a) Using successive approximations, determine the molar concentrations of all species at equilibrium given that the initial molar concentration of N2 was 0.65 M and that the initial molar concentration of 02 was 0.45 M. In this situation, you will have to assume the reaction goes to completion, and then use the method of successive approximations. b) Using the quadratic formula, determine the molar concentrations of all species at equilibrium. In this case, you will NOT need to take the reaction to completion
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