The degree of dissociation of `PCl_(5)` at `1` atm pressure is `0.2`. Calculate the pressure at which `PCl_(5)` is dissociated to `50%`?

The degree of dissociation of PCl_(5) will be more at ………. pressure.

The degree of dissociation of PCl_(5) decreases with increase in pressure.

At some temperature and under a pressure of 4 atm, PCl_(5) is 10% dissociated. Calculated the pressure at which PCl_(5) will be 20% dissociated temperature remaining same.

The equilibrium constant K_(p) for the thermal dissociation of PCl_(5) at 200^(@)C is 1.6 atm. The pressure (in atm) at which it is 50% dissociated at that temperature is

A certain temperature, the degree of dissociationof PCI_(3) was found to be 0.25 under a total pressure of 15 atm. The value of K_(p) for the dissociation of PCl_(5) is

At 1000^@C the pressure of iodine gas is found to be 0.112 atm whereas the expected pressure is 0.074 atm. The increased pressure is due to dissociation, I_2 hArr 2I . Calculate K_p . Also find out pressure at which I_2 will be 90% dissociation at 1000^@C .

The dissociation of PCl_5 decreases in presence of Cl_2 Why ?

Assertion :- Adding inert gas at equilibrium to dissociation of PCl_(5) at constant pressure increases the degree of dissociation. Reason :- Since degree of dissociation x alphasqrt(v)

The degree of dissociation of I_(2) "mole"cule at 1000^(@)C and under 1.0 atm is 40% by volume. If the dissociation is reduced to 20% at the same temperature, the total equilibrium pressure on the gas will be:

The degree of dissociation of I_(2) "mole"cule at 1000^(@)C and under 1.0 atm is 40% by volume. If the dissociation is reduced to 20% at the same temperature, the total equilibrium pressure on the gas will be: