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For the reaction \( \mathrm{N}_{2}(\mathrm{~g})+3 \mathrm{H}_{2}(\mathrm{~g}) \rightleftharpoons 2 \mathrm{NH}_{3}(\mathrm{~g}) \)
Equilibrium constant \( \mathrm{K}_{\mathrm{C}}=\frac{\left[\mathrm{NH}_{3}\right]^{2}}{\left[\mathrm{~N}_{2}\right]\left[\mathrm{H}_{2}\right]^{3}} \)
Some reactions are written below in column I and their equilibrium constant terms of \( \mathrm{K}_{\mathrm{C}} \) are written in
\( \mathrm{P} \)
column II. Match the following reactions with the corresponding equilibrium constant.
\begin{tabular}{|l|c|l|l|}
\hline \multicolumn{2}{|c|}{\begin{tabular}{c}
Column - I \\
(Reaction)
\end{tabular}} & \multicolumn{2}{|c|}{\begin{tabular}{c}
Column - II \\
(Equilibrium \\
constant)
\end{tabular}} \\
\hline A. & \begin{tabular}{r}
\( 2 \mathrm{~N}_{2}(\mathrm{~g})+6 \mathrm{H}_{2}(\mathrm{~g}) \) \\
\( \rightleftharpoons 4 \mathrm{NH}_{3}(\mathrm{~g}) \)
\end{tabular} & P. & \( 2 \mathrm{~K}_{\mathrm{C}} \) \\
\hline B. & \begin{tabular}{r}
\( 2 \mathrm{NH}_{3}(\mathrm{~g}) \rightleftharpoons \mathrm{N}_{2}(\mathrm{~g}) \) \\
\( +3 \mathrm{H}_{2}(\mathrm{~g}) \)
\end{tabular} & Q. & \( \mathrm{K}_{\mathrm{c}}^{1 / 2} \) \\
\hline C. & \begin{tabular}{c}
\( \frac{1}{2} N_{2}(g) \) \\
\( +\frac{3}{2} H_{2}(g) \rightleftharpoons \) \\
\( \mathrm{NH}_{3}(\mathrm{~g}) \)
\end{tabular} & R. & \( \frac{1}{\mathrm{~K}_{\mathrm{c}}} \) \\
\hline
\end{tabular}
\begin{tabular}{llll}
& A & B & C \\
(1) & S & R & Q \\
(2) & R & P, S & Q \\
(3) & Q & R & S \\
(4) & Q & S & Q
\end{tabular}


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