Calculate the solubility of `AgCN` in a buffer solution of `pH = 3`, Given `K_(sp) of AGCN = 1.2 xx 10^(-16)` and `K_(a)` for `HCN = 4.8 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) .

Calculate the solubility of AgCN in a buffer solution of pH 3.0 . Assume that no cyano complex is formed K_(sp) AgCN = 2.2 xx 10^(-16), K_(a) HCN = 6.2 xx 10^(-10) .

Calculate the solubility of AgCN in a buffer solution of pH 3.0 . Assume that no cyano complex is formed K_(sp) AgCN = 2.2 xx 10^(-16), K_(a) HCN = 6.2 xx 10^(-10) .

Calculate the solubility of CaF_(2) in a solution buffered at pH = 3.0. K_(a) for HF = 6.3 xx 10^(-4) and K_(sp) of CaF_(2) = 3.45 xx 10^(-11) .

Calculate the solubility of CaF_(2) in a solution buffered at pH = 3.0. K_(a) for HF = 6.3 xx 10^(-4) and K_(sp) of CaF_(2) = 3.45 xx 10^(-11) .

The solubility of CH_(3)COOAg in a buffer solution with pH = 4 , whose K_(sp) = 10^(-12) and K_(a) = (10^(-4))/(3) is

The solubility of CH_(3)COOAg in a buffer solution with pH = 4 , whose K_(sp) = 10^(-12) and K_(a) = (10^(-4))/(3) is

Calculate solubility of AgCN (K_(sp)= 4 xx 10^(-16)) in a buffer solution of PH=3. [(K_a)_(HCN)= 4 xx 10^(-10)] .