One mole of A (g) is heated to `200^@` C in a one litre closed flask, till the following equilibrium is reached.
`A(g) leftrightarrow B(g)`
The rate of forward reaction, at equilibrium, is 0.02 ` mol L^(-1) mi n^(-1)`. What is the rate (in ` mol L^(-1)mi n^(-1)`) of the backward reaction at equilibrium?

1 mole of A_((g)) is heated to 200^@ C in a one litre closed flask, till the following equilibrium is reached. A_((g)) Leftrightarrow B_(g)) . The rate of forward reaction at equilibrium is 0.02 mol lit ""^(-1) "min"^(-1) . What is the rate ("mol. Lit"^(-1)" min"^(-1)) of the backward reaction at equilibrium?

One mole of A_((g)) is heated to 300^(@) C in a closed one litre vessel till the following equilibrium is reached. A_((g)) hArr B_((g) . The equilibrium constant of the reaction at 300^(@) C is 4. What is the conc. of B ("in. mole. lit"^(-1)) at equilibrium ?

One mole of A_((g)) is heated to 300^(@) C in a closed one litre vessel till the following equilibrium is reached. A_((g)) hArr B_((g) . The equilibrium constant of the reaction at 300^(@) C is 4. What is the conc. of B ("in. mole. lit"^(-1)) at equilibrium ?

Equilibrium constant for the reaction, H_(2)O (g) + CO(g) is 81. If the velocity constant of the forward reaction is 162 L mol s^(-1) , what is the velocity constant (in mol s^(-1) ) for the backward reaction?

1 mol A_((g)) is heated in 1 lit closed vessel and equilibrium is reached at 300^(@) C in A_((g)) hArr B_((g)) . If K_(C) =4 , concentration of B_((g)) at equilibrium is (in mol/lit)

Equilibrium constant for the reaction H_(2)O_((g))+CO_((g)) Leftrightarrow H_(2(g))+CO_(2(g)) is 81. If the rate constant of the forward reaction is 162 lit mol^(-1), sec^(-1) , what is the velocity constnat ("in lit." mole"^(-1) sec^(-1)) for the backward reaction?

In the equilibrium reaction, A +B leftrightarrow C + D The activation energy for the forward reaction is 25 kcal mol^(-1) and that of the backward reaction is 15 kcal mol^(-1) . Which one of the following statements is correct?

The rate for the first order reaction is 0.69 xx10^-2 mol L^-1 mi n^-1 and the initial concentration is 0.2 mol L^-1 . The half life period is :

The equilibrium constant for the reaction 2X+Y leftrightarrow X_2Y is 10 L^2 mol^-2 . The rate constant for the backward reaction 28s^-1 . What is the rate constant of the forward reaction.