In a reaction at equilibrium, X moles of the reactant A decomposes to give `1` mole each of C and D. It has been found that the fraction of A decomposed at equilibrium is independent of initial concentration of A. Calculate X.

In a gaseous reaction at equilibrium , 'n' mole of reactant 'A' decompose to give 1 mole each of C and D.It has been found that degree of dissociation of A at equilibrium is independent of total pressure.Value of 'n' is :

In the reaction A + B hArr C + D, 4 moles of A react with 4 moles of B and form 2 moles each of C and D. The value of Ke for the reaction is

Assertion : The equilibrium constant for the reverse reaction is equal to the inverse of the equilibrium constant for the forward reaction . Reason : The value of equilibrium constant is independent of initial concentrations of the reactants and products.

In the reaction A+B hArr C+D , What will happen to the equilibrium if concentration of A is increased ?

At a definite temperature, the equilibrium constant for a reaction, A+BhArr2C , was found to be 81. Starting with 1 mole A and 1 mole B, the mole fraction of C at equilibrium is :

In an experiment the equilibrium constant for the reaction A+BhArr C+D is K_(C) when the initial concentration of A and B each is 0.1 mole. Under similar conditions in an another experiment if the initial concentration of A and B are taken to be 2 and 3 moles respectively then the value of equilibrium constant will be

In the reaction, A+BhArrC+D in a one - litre container, concentration of B at fixed temperature was n mole and initial concentration of A was 3n mole. If the concentration of C at equilibrium is equivalent to that of B, the concentration of D will be

Hydrogen (a moles ) and iodine (b moles ) react to give 2x moles of the HI at equilibrium . The total number of moles at equilibrium is

Assertion (A) : Greater the value of K, more is the fraction of initial concentration of reactants converted to products at equilibrium. Reason (R) : The value of K depends on the initial concentration of reactants.

One mole of A reacts with one mole of B to form 0.1 mole of C and 0.1 mole of D . What will be the value of the equilibrium constant ? A+BrArrC+D