At `25^(@)C`, the `K_(sp)` value of `Fe(OH)_(2)` in aquoeus solution is `3.8 xx 10^(-38)`. The solubility of `Fe^(3+)` ions will increases when

If a springly soluble salt is placed in water, after some time an equilibrium is established when the rate of dissolution of ions form the soid equal to the rate of precipitation of ions from the saturated solution at a particular temperature. Thus, a dynamic equilibrium exists between the undissociated solid species and the dissolved ionic species in a saturated and the dissolved ionic species in a saturated solution at a particular temperature. For example, in AgCl , we have the following equilibrium: AgCl_((aq.)) Ag_((aq))^(+) + Cl_((aq))^(-) The equilibrium constant K_(eq) = ([Ag^(+)][Cl^(-)])/([AgCl]) K_(eq) xx [AgCl] = [Ag^(+)] [Cl^(-)] rArr K_(sp) (AgCl) = [Ag^(+)][Cl^(-)]"........"(A)" :' [AgCl] is constant If there would not have been a saturated solution, then from equation (A), Keq. [AgCl] ne K_(sp) , but K_(eq).[AgCl] = Q_(AgCl) , where Q is ionic product, it implies that for a saturated solution, Q = K_(sp) K_(sp) is temperature dependent. When Q lt K_(sp) , then the solution is unsaturated and there will be no precipitate formation. When Q = K_(sp) , then solution will be saturated, no and ppt. will be formed When Q gt K_(sp) , the solution will be supersaturated and there will be formation precipitate. The solubility product of ferric hydroxide in aqueous solution is 6 xx 10^(-38) at 298 K . The solubility of Fe^(3+) ions will increase when the :

Consider the following statement and select correct option: (I) K_(sp) of Fe(OH)_(3) in aqueous solution is 3.8xx10^(-38) at 298 K. The concentration of Fe^(+) will increase when [H^(+)] ion concentration decreases. (II) In a mixture of NH_(4)Cl and NH_(4)OH in water, a further amountof NH_(4)Cl is added. The pH of the mixture will decreases. (III) An aqueous solution of each of the following salt (NH_(4)I,HCOOK) will be basic, acidic respectively.

The solubility of Fe(OH)_(3) would be maximum in :

At 25^(0)C , the hydroxyl ion of a basic solution is 6.75 xx 10^(-3) M . Then the value of K_(w) is

K_(sp) of Mg(OH)_(2) is 1.8 xx 10^(-11) at 30^(@)C . Its molar solubility is ….......... at pH =5

If the solubility of MX_(2) ( a sparingly soluble salt is 2.5 xx 10^(-4) mol^(-1) . The value of K_(sp) of the salt would be

What is the molar solubility of MgF_(2) in a 0.2 M solution of KF? (K_(sp)=8xx10^(-8))