150 mL `M/10` `Ba(MnO_(4))_(2)`, in acidic medium can oxidize completely

1 lit of M/10 Ba(MnO_(4))_(2) , in acidic medium can be oxidised completely with 1/6 lit of x M ferric oxalate. The value of x is

KMnO_(4) reacts with KI,in basic medium to form I_(2) and MnO_(2) When 250 mL of 0.1M KI solution is mixed with 250 mL of 0.02 M KMnO_(4) , in basic medium, what is the number of moles of I_(2) formed?

3 moles of a mixture of FeSO_(4) and Fe_(2)(SO_(4))_(3) required 100 mL of 2 M KMnO_(4) solution in acidic medium. Hence, mole fraction of FeSO_(4) in the mixture is

2mol FeSO_(4) in acid medium are oxidised by x mole of KMnO_(4) , where as 2 moleof FeC_(2)O_(4) in acid medium are oxidized by y mole of KMnO_(4) . The ratioof x and y is

1 mol of equimolar mixture of ferric oxalate and ferrous oxalate will require x mol of KMnO_(4) in acidic medium for complete oxidation. X is

Equivalent weight of Ba(MNO_4)_2 in acidic medium ( M = molar mass)

10 g sample of H_(2)O_(2) just decolorised 100 ml of 0.1 M KMnO_(4) in acidic medium % by mass of H_(2)O_(2) in the sample is

100 mL of H_(2)O_(2) is oxidized by 100 mL of 1M KMnO_(4) in acidic medium ( MnO_(4)^(-) reduced to Mn^(+2) ) 100 mL of same H_(2)O_(2) is oxidized by v mL of 1M KMnO_(4) in basic medium ( MnO_(4)^(-) reduced to MnO_(2) ). Find the value of v:

100 mL of 0.01M KMnO_4 oxidises 100mL of acidified H_2O_2 . The volume of Oxygen in (MnO_4^(-)) changes to Mn^(2+) in acidic medium and to MnO_4 in alkaline medium).