A) \[{{P}_{4}}\] is feasible but \[{{\text{N}}_{\text{4}}}\]is not feasible
B) \[{{P}_{4}}\] is not feasible but \[{{\text{N}}_{\text{4}}}\]is feasible
C) Both \[{{\text{P}}_{4}}\] and \[{{\text{N}}_{\text{4}}}\]are feasible
D) Both \[{{P}_{4}}\] and \[{{\text{N}}_{\text{4}}}\]are not feasible
Correct Answer: A
Solution :
The process involves replacement of \[\text{2}\left( \text{X}\equiv \text{X} \right)\] units by 6 X?X bonds in the \[{{X}_{4}}\] tetrahedron. Energy is released when bonds are formed and thus species formed is stable. (i) \[2{{P}^{2}}(g)\to {{P}_{4}}(g)\]You need to login to perform this action.
You will be redirected in
3 sec