\[2A+2B2C+2D;\,\,\,\,{{E}^{o}}=y\,volt,\,\,\,\,{{K}_{eq}}={{K}_{2}}\] | \[x=y,{{K}_{2}}=K_{1}^{2}\] | |
Gas X | \[x=2y,{{K}_{1}}=2{{K}_{2}}\] | \[x=y.{{K}_{1}}=\frac{1}{{{K}_{2}}}\] |
Gas Y | \[x=y,{{K}_{1}}=K_{2}^{2}\] | \[XC{{l}_{n}}\] |
I. Critical volume of X > critical volume of Y |
II. Critical pressure of X > critical pressure of V |
III. Critical temperature of X > critical temperature of Y. |
A) Only I
B) I and II
C) I, II and III
D) II and III
Correct Answer: A
Solution :
Gas X \[NH_{4}^{+}\] \[N{{H}_{3}}\] \[A+BC+D;\,\,\,\,{{E}^{o}}=x\,volt,\,\,\,\,{{K}_{eq}}={{K}_{1}}\]equal \[2A+2B2C+2D;\,\,\,\,{{E}^{o}}=y\,volt,\,\,\,\,{{K}_{eq}}={{K}_{2}}\] \[x=y,{{K}_{2}}=K_{1}^{2}\] equal \[x=2y,{{K}_{1}}=2{{K}_{2}}\] Gas Y \[x=y.{{K}_{1}}=\frac{1}{{{K}_{2}}}\] \[x=y,{{K}_{1}}=K_{2}^{2}\] \[XC{{l}_{n}}\] \[XC{{l}_{n-2}}\] \[A>B>C\] \[B>A>C\]You need to login to perform this action.
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