A) \[\text{2}.\text{4}\times \text{1}{{0}^{-\text{4}}}\text{ and 1}.\text{5}\times \text{1}{{0}^{-\text{4}}}\text{ respectively}\]
B) \[\text{4}.\text{8}\times \text{1}{{0}^{-\text{4}}}\text{ and 1}.\text{2}\times \text{1}{{0}^{-\text{4}}}\text{ respectively}\]
C) \[\underset{\begin{smallmatrix} (Greater \\ Volume) \end{smallmatrix}}{\mathop{Ice}}\,\underset{\begin{smallmatrix} (Lesser \\ Volume) \end{smallmatrix}}{\mathop{Water}}\,-XKcal\]
D) \[Ni(s)+2A{{g}^{+}}(0.002M)\to N{{i}^{2+}}(0.160M)+2Ag(s)\]
Correct Answer: C
Solution :
\[\underset{1-\alpha }{\mathop{PC{{l}_{5}}}}\,(g)\underset{\alpha }{\mathop{PC{{l}_{3}}}}\,+\underset{\alpha }{\mathop{C{{l}_{2}}}}\,(g)\] (where, \[\alpha \]= degree of dissociation) \[\text{I}\] \[\text{II}\] \[\text{III}\] Or \[\text{IIIIII}\] Or \[\alpha ={{\left( \frac{{{K}_{p}}}{{{K}_{p}}+P} \right)}^{1/2}}\]You need to login to perform this action.
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