The shapes of `PCI_(4)^(o+),PCI_(4)^(Θ)` and `AsCI_(5)` and are respectively .

In the reaction PCI_(5)(g)hArr PCI_(3)(g)+CI_(2)(g) the equilibrium concentrations of PCI_(3) and PCI_(3) are 0.4 and 0.2 mol^(-1) , respectively. If the value of K_(c) is 0.5 , what id the concentration of CI_(2) in moles per litre ?

PCI_(5) exists but NCI_(5) does not because

A mixture of HCI(g), PCI_(3)(g) and PCI_(5)(s) each have equal number of CI-atom then their molar ratio in the mixture is :

For the reaction PCI_(5) (g) hArr PCI_(3) (g) + CI_(2) (g) The forward reaction at constant temperature is favoured by (1).introducing an inert gas at constant volume (2).introducing chloride gas at constant volume (3).introduding as inert gas at constant pressure (4). increasing the volume of the contianer (5). Introducing PCI_(5) at constant volume.

Solid PCI_(5) exits as

CH_(3)CH_(2)CHO +PCI_(5) to (B) ,(A) " and " (B) " are "

Consider the following reaction sequence, CH_(3)C-= CH overset(aq.H_(2)SO_(4))underset(H_(2)SO_(4))rarr A overset(PCI_(5))underset(Heat)rarrB The products (A) and (B) are, respectively,

In the reaction 2PCI_(5) hArr PCI_(4)^(o+) + PCI_(6)^(Θ) the change in hybridisation is from .

For the reaction PCI_(5)(g) rightarrow PCI_(3)(g) + CI_(2)(g)