The equilibrium constant for the reactions
`A+B hArr AB` is `0.5` at `200K`. The equilibrium constant for the reaction `AB hArr A+B` would be

The equilibrium constant for the reaction A_(2)(g)+B_(2)(g) hArr 2AB(g) is 20 at 500K . The equilibrium constant for the reaction 2AB(g) hArr A_(2)(g)+B_(2)(g) would be

The unit of equilibrium constant K_(c) for the reaction A+B hArr C would be

The equilibrium constant for the reaction 2A+2B hArr 2C+2D is 200 . The equilibrium constant for the reaction A+B hArr C+D , at the same temperature is ………..

The unit of equilibrium constant, K for the reaction, A+B rarr C , would be

The equilibrium constant for a reaction A+2B hArr 2C is 40 . The equilibrium constant for reaction C hArr B+1//2 A is

At a certain temperature, the value of equilibrium constant for the reaction: A_2+2B_2(g) hArr 2AB_2 is 100. What is the equilibrium constant for the reaction. AB_2(g) hArr 1/2A_2 + B_2 ?

The equilibrium constant for the reaction H_(2)+Br_(2)hArr2HBr is 67.8 at 300(@)K . The equilibrium constant for the dissociation of HBr is:

The equilibrium constant for the reaction: N_2 + 3H_2 hArr 2NH_3 is K. What will be the equilibrium constant for the reaction involving decomposition of one mole of ammonia ?

If the equilibrium constant of the reaction 2HI hArrH_(2) + I_(2) is 0.25 , then the equilibrium constant of the reaction H_(2) + I_(2)hArr2HI would be

If the equilibrium constant for a reaction is 4*0 , what will be the equilibrium constant for the reverse reaction.