Determine the solubility of silver chromate at 298 K given its `K_(sp)` value is `1.1xx10^(-12)`?

Determine the solubility of Cr(OH)_(3) in mol L^(-1) , If its K_(sp) is 2.7 xx 10^(-31) M^(4) .

What would be the solubility of silver chloride in 0.10M NaCI solution? K_(sp) for AgCI = 1.20 xx 10^(-10)

Determine the solubilities of silver chromate, barium chromate, ferric hydroxide, lead chloride and mercurous iodide at 298 K form their solubility product constants given below. Determine also the molarities of individual ions. K_(SP(Ag_(2)CrO_(4)))=1.1xx10^(-12) , K_(SP(BaCrO_(4)))=1.2xx10^(-10) , K_(SP[Fe(OH)_(3)])=1.0xx10^(-38) , K_(SP(PbCI_(2)))=1.6xx10^(-5) , K_(SP(Hg_(2)I_(2)))=4.5xx10^(-29) .

Determine the solubilities of silver chromate, barium chromate, ferric hydroxide, lead chloride and mercurous iodide at 298K from theor solubility product constants given in Table 7.9 . Determine also the molarities of individual ions.

The solubility of silver chromate in 0.01 M K_(2) CrO_(4)" is " 2 xx 10^(-8) mol/1. The solubility product of silver chromate will be

Calculate the solubility of CaF_(2) in water at 298 K which is 70% dissociated. K_(sp) of CaF_(2) is 1.7 xx 10^(-10) . If answer is x xx 10^(-4) mol/ltr then x = ____?

Consider a sturated solution of silver chloride that is in contact with solid silver chloride. The solubility equilibrium can be represented as AgCl(s)hArrAg^(+)(aq.)+Cl^(-)(aq.)," "K_(sp)=[Ag^(+)(aq.)][Cl^(-)(aq.)] Where K_(sp) is clled the solubility product constant or simply the solubility product. In general, the solubility product of a compound is the product of the molar concentrations of the constituent ions, each raised to the power of its stoichiometric coefficient in the equilibrium equation. For concentrations of ions that do not necessarliy correpond to equilibrium conditions we use the reaction quotient (Q) which is clled the ion or ionic prodect (Q) to predict whether a precipitate will from. Note that (Q) has the same for as K_(sp) are QltK_(sp) Unsaturated solution Q=K_(sp) Saturated solution Qgt_(sp) Supersaturated solution, precipitate will from Determine the molar solubility of MgF_(2) from its solubility product K_(sp)=4xx10^(-9) :

The solubility of CuBr is 2xx10^(-4) mol/litre at 25^(@)C . The K_(sp) value for CuBr is

The solubility of solid silver chromate, Ag_(2)CrO_(4) , is determined in three solvents K_(sp) of Ag_(2)CrO_(4) = 9 xx 10^(-12) I. pure water II. 0.1A gNO_(3) III. 0.1M Na_(2)CrO_(4) Predict the relative solubility of Ag_(2)CrO_(4) in the three solvents.

Calculate the degree of hydrolysis of 0.1 M solution of acetate at 298 k. Given : K_a=1.8xx10^(-5)