For the gaseous reactions (I) and (II),the eq | vedclass

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(D) For reaction $(I)$: $\frac{1}{2} N_{2(g)} + O_{2(g)} \rightleftharpoons NO_{2(g)}$,the equilibrium constant is $X = \frac{[NO_2]}{[N_2]^{1/2} [O_2

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$Z = \frac{1}{X^2 Y}$

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(D) For reaction $(I)$: $\frac{1}{2} N_{2(g)} + O_{2(g)} \rightleftharpoons NO_{2(g)}$,the equilibrium constant is $X = \frac{[NO_2]}{[N_2]^{1/2} [O_2]}$.Thus,$[N_2]^{1/2} [O_2] = \frac{[NO_2]}{X}$ ... $(i)$For reaction $(II)$: $2 NO_{2(g)} \rightleftharpoons N_2 O_{4(g)}$,the equilibrium constant is $Y = \frac{[N_2 O_4]}{[NO_2]^2}$.Thus,$[NO_2]^2 = \frac{[N_2 O_4]}{Y}$ ... $(ii)$For reaction $(III)$: $N_2 O_{4(g)} \rightleftharpoons N_{2(g)} + 2 O_{2(g)}$,the equilibrium constant is $Z = \frac{[N_2] [O_2]^2}{[N_2 O_4]}$.From equation $(i)$,squaring both sides gives $[N_2] [O_2]^2 = \frac{[NO_2]^2}{X^2}$.Substituting this into the expression for $Z$:$Z = \frac{[NO_2]^2}{X^2 [N_2 O_4]}$.From equation $(ii)$,we know $\frac{[N_2 O_4]}{[NO_2]^2} = Y$,so $\frac{[NO_2]^2}{[N_2 O_4]} = \frac{1}{Y}$.Therefore,$Z = \frac{1}{X^2 Y}$.

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