338 mL clear saturated solution of `AgBrO_(3)` requires just `30.4mL of H_(2)S_((g))` at `23^(@)C` and 748 mm Hg to precipitate all the `Ag^(+)` ions `Ag_(2)S`. What will be `K_(SP)of AgBrO_(3)` ?

To precipitate as Ag_(2)S(s) , all Ag^(+) present in 250mL of a saturated solution of AgBrO_(3) requires 3.405 cm^(3) of H_(2)S(g) measured at STP (Assuming H_(2)S is enough soluble in water). K_(sp) of AgBrO_(3) is : [ K_(sp)(Ag_(2)S)=10^(-50) , K_(a)(H_(2)S)=10^(-21) ].

25.0 mL clear saturated solution of PbI_(2(aq.)) requires 13.3mL of AgNO_(3(aq.)) solution for complete precipitation. What is molarity of AgNO_(3) solution ? (K_(SP) "of Pb"I_(2) is 7.1xx10^(-9))

The volume of 0.1M AgNO_(3) which is required by 10 ml of 0.09 M K_(2)CrO_(4) to precipitate all the chromate as Ag_(2)CrO_(4) is

50 mL of a sample of clear saturated solution of Ag_(2)CrO_(4) requies 20 mL of a XM Pb(NO_(3))_(2) for its titration. What is the value of X ? (K_(SP)for Ag_(2)CrO_(4)=1.6xx10^(-12))

250 mL od saturated clear solution of CaC_(2) O_(4)(aq) require 6.3 mL of 0.00102 M KMnO_(4)(aq) inacid medium for complete oxidation of C_(2)O_(4)^(2-) ions . Calculate the K_(sp) of CaC_(2) O_(4) .

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.

The ratio of amounts of H_(2)S needed to precipitate all the metal ions from 100 ml of 1 M AgNO_(3) and 100 ml of 1 M CuSO_(4) will be

Ratio of the amounts of H_(2)S needed to precipitate all the metal ions from 100 ml of 1M AgNO_(3) and 100 ml of 1M CuSO_(4) will be :