Determine the mol. Of `AgI` which may be dissolved in `1.0L` of `1.0MCN^(Theta)` solution. `K_(sp)` for `AgI` and `K_(c)` for `Ag(CN)_(2)^(Theta)` are `1.2 xx 10^(-17)M^(2)`and `7.1 xx 10^(-19) M^(-2)`, respectively.

Determine the number of mole of AgI which may be dissolved in 1.0 litre of 1M CN^(-) solution. K_(SP) for AgI and K_(C) for Ag(CN)_(2)^(-) are 1.2xx10^(-17)M^(2) and 7.1xx10^(19)M^(-2) respectively.

Determine the concentration of NH_(3) solution whose one litre can dissolve 0.10 mole AgCl. K_(sp) of AgCl and K_(f) of Ag(NH_(3))_(2)^(+) are 1.0xx10^(-10)M^(2) and 1.6xx10^(7)M^(-2) respectively.

Approximate p.H,0.1M aqueous H_(2)S solution when K_(1) and K_(2) for H_(2)S at 25^(@)C are 1xx10^(-7) and 1.3xx10^(-13) respectively:-

What are [H^(o+)], [A^(Theta) , and [B^(Theta)] in a solution that is 0.3M HA and 0.1M HB? K_(a) for HA and HB are 1.38 xx 10^(-4) and 1.05 xx 10^(-10) , respectively.

What are [H^(o+)], [A^(Theta) , and [B^(Theta)] in a solution that is 0.3M HA and 0.1M HB? K_(a) for HA and HB are 1.38 xx 10^(-4) and 1.05 xx 10^(-10) , respectively.

100.0mL of a saturated solution of Ag_(2)SO_(4) is added to 250.0mL of saturated solution of PbCrO_(4) . Will may precipitate form and if so what? Given K_(sp) for Ag_(2)SO_(4), Ag_(2)CrO_(4), PbCrO_(4) ,and PbSO_(4) are 1.4 xx 10^(-5), 2.4 xx 10^(-12), 2.8 xx 10^(-13) , and 1.6 xx 10^(-8) , respectively.

Number of moles of Cul (K_(sp) = 5 xx 10^(-12)) that will dissolve in 1 L of 0.1 M Nal solution is

Calculate the minimum mass of NaCI necessary to dissolve 0.01mol AgC1 in 100L solution. (Assume no change in volume) (K_(f)AgC1_(2)^(Θ) = 2.5 xx 10^(5)) (K_(sp)AGCl = 2 xx 10^(-10))

Calculate the solubility og AgCN in a buffer solution of pH 3.00 K_(sp(AgCN)) = 1.2 xx10^(-18) and K_(a(HCN)) = 4.8 xx 10^(10) M^(2) .

Determine the mass of PbI_(2) that will dissolve in (a) 500mL water (b) 500mL of 0.01M KI solution (c) 500mL of a solution containing 1.33 g Pb(NO_(3))_(2), K_(sp) of PbI = 1.4 xx 10^(-8) .