At a certain temperature and total pressures of `10^(5)Pa`, iodine vapour contains `40%` by volume of `1` atoms
`I_(2)(g) hArr 2I(g)`
Calculate `K_(p)` for the equilibrium

At a certain temperature and a total pressure of 10^(5) Pa , iodine vapour contains 40% by volume of I "atoms" , Calculate K_(p) for the equilibrium. I_(2(g))hArr2I_((g))

At a certain temperature and a total pressure of 10^(5) Pa , iodine vapour contains 40% by volume of I "atoms" , Calculate K_(p) for the equilibrium. I_(2(g))hArr2I_((g))

For reaction : H_(2)(h)+I_(2)(g) hArr 2HI(g) at certain temperature, the value of equilibrium constant is 50 . If the volume of the vessel is reduced to half of its original volume, the value of new equilibrium constant will be

n mole of PCl_(3) and n mole of Cl_(2) are allowed to react at constant temperature T to have a total equilibrium pressure P , as : PCl_(3)(g)+Cl_(2)(g) hArr PCl_(5)(g) If y mole of PCl_(5) are formed at equilibrium , find K_(p) for the given reaction .

At a certain temperature , the equilibrium constant (K_(c)) is 4//9 for the reaction : CO(g)+H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) If we take 10 mole of each of the four gases in a one - litre container, what would be the equilibrium mole percent of H_(2)(g) ?

Pure PCl_(5) is introduced into an evacuated chamber and to equilibrium at 247^(@)C and 2.0 atm .The equilibrium gases mixture contains 40% chlorine by volume . Calculate K_(p) at 247^(@)C for the reaction PCl_(5)(g)hArrPCl_(3)(g)+Cl_(2)(g)

The equilibrium constant K_(p) for the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) changes if:

The pressure of iodine gas at 1273 K 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) .

The equilibrium pressure of NH_(4)CN(s) hArr NH_(3)(g)+HCN(g) is 2.98 atm. Calculate K_(p)

In an experiment 5 moles of HI were enclosed in a 5 litre container . At 717 K equilibrium constant for the gaseous reaction , 2HI (g) hArr H_2(g) +I_2(g) is 0.025 . Calculate the equilibrium concentration of HI ,H_2 and I_2 . What is the fraction of HI that decomposes ?