(i) \[X(s)A(g)+C(g)\] and |
(ii) \[Y(s)B(g)+C(g)\] |
At a given temperature, pressure over excess solid 'X? is \[40\text{ }mm\]of \[Hg\]and total pressure over solid \['Y(s)'\] is \[60\text{ }mm\]of\[Hg\]. Ratio of \[{{K}_{P}}\] for reaction (i) to that of reaction (ii) is |
A) \[9:4\]
B) \[2:3\]
C) \[4:9\]
D) \[2:1\]
Correct Answer: C
Solution :
[c] \[X(s)\underset{20\,mm}{\mathop{A(g)}}\,+\underset{30\,mm}{\mathop{C(g)}}\,;\] \[{{K}_{P1}}=20\times 20=400\,\,m{{m}^{2}}\] and \[Y(S)\underset{30\,\,mm}{\mathop{B(g)}}\,+\underset{30\,\,mm}{\mathop{C(g);}}\,\] \[{{K}_{P2}}=30\times 30=900\,m{{m}^{2}}\] \[\therefore \,\,\,\,\,\,\frac{{{K}_{P1}}}{{{K}_{P2}}}=\frac{4}{9}\] Hence, (3) is the CORRECT answer.You need to login to perform this action.
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