The equilibrium constants at 298 K for a reaction `A + B hArr C + D ` is 100 . If the initial concentration of all the four species were 1 M each , then equilibrium concentration of D ( in mol `.L^(-1)`) will be -

The equilibrium constant at 298 K for a reaction, A+B⇌C+D is 100. If the initial concentration of all the four species were 1 M each, then equilibrium concentration of D (in mol L −1 ) will be:

The value of equilibrium constant of a reaction at a particular temperature does not depend on the initial concentrations of the reactants.

The unit of equilibrium constant of the reaction, A+3B hArr nC is L^(2)*mol^(-2) . What is the value of n

If the equilibrium constants of following reactions are 2A hArr B is K_(1) and B hArr2A is K_(2) , then

The rate constant of the reaction ArarrB is 6.932xx10^(-3)"min"^(-1) . If initial concentration of A is 1(M) , then , the rate of the reaction ( in mol.L^(-1)."min"^(-1)) after 100 min will be -

For the reaction. H_2+I_2hArr2HI,K=47.6 . If the initial number of moles of each reactant product is 1 mol then at equilibrium-

For the reaction , H_2+I_2hArr2HI , K=47.6. If the initial number of moles of each reactant and product is 1mol then at equilibrium

Consider a certain reaction Ararr products with k=2.0xx10^(-2)s^(-1) .Calculate the concentration of a A remaining after 100s if the initial concentration of A is 1.0"mol .L"^(-1) .

At a certain temperature, the equilibrium constant K_c is 16 for the reaction, SO_2(g) + NO_2(g) iff SO_3(g) + NO(g) . If 1.0 mol each of all the four gases is taken in a one litre container the concentration of NO_2 at equilibrium would be