The equilibrium constant at 298 K for a reaction `A +B hArr C+D` is 100. If the initial concentration of all the four species were 1M each, then equilibrium concentration of D (in mol `L^(-1)`) will be:

The equilibrium constant at 298K for a reaction, A+BhArrC+D is 100. If the initial concentrations of all the four species were 1M each, then equilibirum concentration of D (in mol L^(-1) ) will be

The equilibrium constant (K) for the reaction. A+2BhArr2C+D is:

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

In the reaction A+B hArr AB , if the concentration of A and B is increased by a factor of 2 , it will cause the equilibrium concentration of AB to change to

The equilibrium constant K_(c) for A(g) hArr B(g) is 1.1 . Which gas has a molar concentration greater than 1 .

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 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

In an experiment the equilibrium constant for the reaction A+BhArr C+D is K_(C) when the initial concentration of A and B each is 0.1 mole. Under similar conditions in an another experiment if the initial concentration of A and B are taken to be 2 and 3 moles respectively then the value of equilibrium constant will be

In an equilibrium A+B hArr C+D , A and B are mixed in vesel at temperature T. The initial concentration of A was twice the initial concentration of B. After the equilibrium has reaches, concentration of C was thrice the equilibrium concentration of B. Calculate K_(c) .