In a gaseous reaction `A+2B iff 2C+D` the initial concentration of B was 1.5 times that of A. At equilibrium the concentration of A and D were equal. Calculate the equilibrium constant `K_(C)`.

A(g) + 3(g) hArr 4C(g) Initial concentration of A is equal to that of B. The equilibrium concentration of A and C are equal. K_(c) is equal to .

The initial concentrations of A and B are same for A +2B harr 3C and when equilibrium concentrations of B and C are same then K_(c) is

For the reaction A + B hArr C + D , the concentrations of A and B are equal . The equilibrium concentration of C is twice that of A . K_(C) of the reaction is

In an equilibrium A+BhArrC+D,A and B are mixed in a vessel at temperature T. The initial concentration of A was twice the initial concentration of B. After the attainment of equilibrium, concentration of C was thrice concentration of B, calculate K_(c) .

In which of the following reactions, the concentration of product is higher than the concentration of reactant at equilibrium? (K = equilibrium constant)

In a first - order reaction A to B, if K is the rate constant and initial concentration of the reactant is 0.5 M, then half-life is

The equilibrium conatant for the reaction H_(2(g)) + I_(2(g)) hArr 2HI_((g)) is 2 at a certain temperature. The equilibrium concentrations of H_(2) and HI are 2 mole . lit^(-1) . What is the equilibrium concentration (in mole lit^(-1) ) of I_(2) ?

For the reaction A+B+CtoD . The following observation were made (i) When the concentrations of A was doubled, the rate of formation of D was doubled (ii) When the concentration of B was halved, the rate of formation of d becomes one fourth (iii) Doubling the concentration of C and no effect on rate Select the correct statement (s).

The progress of the reaction A nB with time t is shown in Fig. From this information answer the following questions The equilibrium constant K_C is