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For the Equilibrium System N 2 (g)+O 2 (g)===2 NO (g) 1.) Write a Kcanda Kp expression.) If Kc = 1.
For the Equilibrium System
N2 (g) + O2 (g) === 2 NO (g)
1.) Write a Kc and a Kp expression.
2.) If Kc = 1.50 x 10-2 at 653oC, Calculate and report the equilibrium concentrations of all of the reactants and all of the products at 653oC, if the initial concentrations were
[N2]0 = 0.0100 M
[O2]0 = 0.0200 M
[NO]0 = 0.00300 M
3.) Calculate Kp for this equilibrium system at 653oC using the equation Kp = Kc(RT)∆n.
N.B., you will have to do this in of the following in order to receive full credit . . .
i.) calculate a value for Q to determine whether the system is already at equilibrium OR which direction it will have to proceed in order to achieve equilibrium;
ii.) construct an I-C-E Table and fill it in completely;
iii.) show an adequate number of detailed steps in your calculations so that I can follow your logic from start-to-finish; and
iv.) report your numerical answers to the correct number of sig. figs. and then "box" them.