For the reaction , `A+BhArr 3C`, if 'a' mol/litre of each 'A' and 'B' are taken initially then at equilibrium the incorrect relation is :

For the reaction, A(g)+2B(g)hArr2C(g) one mole of A and 1.5 mol of B are taken in a 2.0 L vessel. At equilibrium, the concentration of C was found to be 0.35 M. The equilibrium constant (K_(c)) of the reaction would be

K_(c) = 9 for the reaction, A + B hArrC + D . If A and B are taken in equal amounts, then amount of C in equilibrium is:

For the reaction a+bhArrc+d , initially concentrations of a and b are equal and at equilibrium the concentration of will be twice of that of a. What will be equilibrium constant for the reaction ?

For the reaction A+B hArr C+D , the initial concentrations of A and B are equal. The equilibrium concentration of C is two times the equilibrium concentration of A. The value of equilibrium constant is ………..

In a reaction A+2BhArr2C , 2.0 mole of 'A' , 3.0 mole of 'B' and 1 mole of 'C' are placed in a 2.0 L flask and the equilibrium concentration of 'C' is 1.0 mole/L.The equilibrium constant (K) for the reaction is :

For the reaction, A+B hArr 2C, 2 mol of A and 3 mol of B are allowed to react. If the equilibrium constant is 4 at 400^(@)C , what will be the moles of C at equilibrium?