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 vaour contain 40% by volume of iodine atmos [I_(2) (g) hArr 2 I (g) ]. " Calculate " K_(p) for the equilibrium.

The pressure of iodine gas at a particular temperature is found to be 0.111atm , where as the expected pressure is 0.074 atm , the increased pressure is due to I_(2)hArr 2I . Calculate K_(p) for this equilibrium.

A sample of HI(g) is placed in flask at a pressure of 0.2 atm . At equilibrium. The partial pressure of HI(g) is 0.04 atm . What is K_(p) for the given equilibrium? 2HI(g) hArr H_(2)(g)+I_(2)(g)

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

At 87^(@)C , the following equilibrium is established H_(2) (g)+S(s)hArrH_(2)S(s)(g), K_(p)=7xx10^(-2) If 0.50 mole of hydrogen and 1.0 mole of sulphuur are heated to 87^(@)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)

If for homogeneous equilibrium, H_2(g)+I_2(g)hArr2HI(g), K_(eq)=1 , then

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

( i ) The equilibrium H_(2(g))+CO_(2(g))hArrH_(2)O_(2(g))+CO_((g)) is established in an evacuated vessel at 723 K starting with 0.1 mol of H_(2) and 0.2 mole of CO_(2) . If the equilibrium mixture contains 10 mole per cent of water vapour, calculate K_(p) , given that the equilibrium pressure is 0.5 atm . Calculate the partial pressures of the component species and the volume of the container. ( ii ) If now, into the flask, solid CoO and solid Co are introduced two new equilibrium are established. CoO_((s))+H_(2(g))hArrCo_((s))+H_(2)O_((g)) , CoO_((s))+CO_((g))hArrCo_((g))+CO_(2(g)) The new equilibrium mixture contains 30 mole per cent of water vapour. Calculate the equilibrium constants for the new equilibria.