The initial molar concentration of the r...

The initial molar concentration of the reactants A and B were 0.1 M and 0.2 M respectively in the following reaction
`A+B hArr 2C`
When equilibrium was attained the concentration of A in the reaction mixture was found to be 0.06M . Calculate the equilibrium constant.

Similar Questions

Explore conceptually related problems

In the reaction, A+B hArr 2C , at equilibrium, the concentration of A and B is 0.20 mol litre^-1 each and that of C was found to be 0.60 mol litre^-1 . The equilibrium constant of the reaction ?

In the reaction, A + B hArr2C , at equilibrium, the concentration of A and B is 0.20 mol L^(-1) each and that of C was found to be 0.60 mol L^(-1) . The equilibrium constant of the reaction is

Two moles of each reactant A and B are taken in a reaction flask. They react in the following manner, A(g)+B(g)hArr C(g)+D(g) At equilibrium, it was found that the concentration of C is triple to that of B the equilibrium constant for the reaction is

For a reaction 2A + B hArr C where initial concentration of A=2M B=1M and C=0 the concentration of B at equilibrium is 0.5 M calculate the value of equilibrium constant for the 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) .

The initial molar concentration of the reactants A and B were 0.1 M and 0.2 M respectively in the following reaction `A+B hArr 2C` When equilibrium was attained the concentration of A in the reaction mixture was found to be 0.06M . Calculate the equilibrium constant.

Similar Questions

Recommended Questions

The initial molar concentration of the reactants A and B were 0.1 M and 0.2 M respectively in the following reaction
`A+B hArr 2C`
When equilibrium was attained the concentration of A in the reaction mixture was found to be 0.06M . Calculate the equilibrium constant.