At 298 , K,for which of the following reactio | vedclass

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(B) The relationship between $K_p$ and $K_c$ is given by $K_p = K_c(RT)^{\Delta n_g}$,which implies $\frac{K_p}{K_c} = (RT)^{\Delta n_g}$.For $(a) N_2

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$d, b$

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(B) The relationship between $K_p$ and $K_c$ is given by $K_p = K_c(RT)^{\Delta n_g}$,which implies $\frac{K_p}{K_c} = (RT)^{\Delta n_g}$.For $(a) N_2O_4 \rightleftharpoons 2NO_2$,$\Delta n_g = 2 - 1 = 1$. So,$\frac{K_p}{K_c} = (RT)^1$.For $(b) 2SO_2 + O_2 \rightleftharpoons 2SO_3$,$\Delta n_g = 2 - (2 + 1) = -1$. So,$\frac{K_p}{K_c} = (RT)^{-1}$.For $(c) X + Y \rightleftharpoons 4Z$,$\Delta n_g = 4 - (1 + 1) = 2$. So,$\frac{K_p}{K_c} = (RT)^2$.For $(d) A + 3B \rightleftharpoons 7C$,$\Delta n_g = 7 - (1 + 3) = 3$. So,$\frac{K_p}{K_c} = (RT)^3$.Comparing the exponents of $(RT)$,the maximum value is for $(d)$ $(\Delta n_g = 3)$ and the minimum value is for $(b)$ $(\Delta n_g = -1)$.

At $298 \, K$,for which of the following reactions will the value of $\frac{K_p}{K_c}$ be maximum and minimum,respectively?
$(a) N_2O_4 \rightleftharpoons 2NO_2$
$(b) 2SO_2 + O_2 \rightleftharpoons 2SO_3$
$(c) X + Y \rightleftharpoons 4Z$
$(d) A + 3B \rightleftharpoons 7C$

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At $298 \, K$,for which of the following reactions will the value of $\frac{K_p}{K_c}$ be maximum and minimum,respectively?$(a) N_2O_4 \rightleftharpoons 2NO_2$$(b) 2SO_2 + O_2 \rightleftharpoons 2SO_3$$(c) X + Y \rightleftharpoons 4Z$$(d) A + 3B \rightleftharpoons 7C$