Equilibrium constants for four different reaction are given as `K_(1)=10^(6), K_(2)=10^(-4), K_(3)=10`, and `K_(4)=1`. Which reaction will take maximum time to attain equilibrium?

{:(A+BhArrC+D,,,K_(1eq)=10^(3),),(E+FhArrG+H,,,K_(2eq)=10^(-3),):} Which of these reaction will attain equilibrium earlier?

{:(A+BhArrC+D,,,K_(1eq)=10^(3),),(E+FhArrG+H,,,K_(2eq)=10^(-3),):} Which of these reaction will attain equilibrium earlier?

Calculate the equilibrium constants for the reactions with water of H_(2)PO_(4)^(Theta), HPO_(4)^(2-) , and PO_(4)^(3-) as ase. Comparing the relative values of two equilibrium constants of H_(2)PO_(4)^(Theta) with water, deduce whether solutions of this ion in water are acidic or base, Deduce whether solutions of HPO_(4)^(2-) are acidic or bases. Given K_(1),K_(2) ,and K_(3) for H_(3)PO_(4) are 7.1 xx 10^(-3), 6.3 xx 10^(-8) , and 4.5 xx 10^(-13) respectively.

Calculate the equilibrium constants for the reactions with water of H_(2)PO_(4)^(Theta), HPO_(4)^(2-) , and PO_(4)^(3-) as ase. Comparing the relative values of two equilibrium constants of H_(2)PO_(4)^(Theta) with water, deduce whether solutions of this ion in water are acidic or base, Deduce whether solutions of HPO_(4)^(2-) are acidic or bases. Given K_(1),K_(2) ,and K_(3) for H_(3)PO_(4) are 7.1 xx 10^(-3), 6.3 xx 10^(-8) , and 4.5 xx 10^(-13) respectively.

The equilibrium constants for the reaction, A_2hArr2A A at 500K and 700K are 1xx10^(-10) and 1xx10^(-5) . The given reaction is