`A + B hArrC + D`. If finally the concentrations of A an d B are both equal but at equilibrium concentration of D will be twice of that of A then what will be the equilibrium constant of reaction.

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) .

In 2002 A.D., the concentration of CFCs was reported to reach

The concentration of a pure solid or liquid phase is not include in the expression of equilibrium constant becase :

The rate law for a reaction between the Substances A and B is given by Rate = k[A]^n [B]^m On doubling the concentration of A and halving the concentration of B, the ratio of the new rate to the earlier rate of reaction will be

In the system A_((s))hArr2B_((g))+3C_((g)) , if the concentration of C at equilibrium is increased by a factor of 2 , it will cause the equilibrium concentration of B to change to:

In the given elementary reaction 2A + B to A_2B , if the concentration of A is doubled and that of B is halved, then the rate of the reaction will:

The figure shows the change in concentration of species A and B as a function of time. The equilibrium constant K_(c) for the reaction A(g)hArr2B(g) is :

For a reaction : A+ B rarr product, it is observed that (i) on doubling the concentration of A only, the rate of reaction is also doubled. (ii) on doubling the initial concentration of both A and B, there is change by a factor of 8 in the rate of reaction. The rate of reaction is given by

For the reaction A + 2B rarr C , the reaction rate is doubled if the concentration of A is doubled. The rate is increased by four times when concentrations of both A and B are increased by four times. The order of the reaction is