as kmno4 acts as a strong reducing agent only in acid medium
Because KMnO4 is an internal indicator.. No need to have any indicator.. it has distinctly different colour when it is reduced
FeCl2 + 2KMnO4 --> Fe(MnO4)2 + 2KCl
Nitric acid, being a strong oxidising agent, interferes with oxidising capacity of KMnO4 hence reducing accuracy of titration.
Oxalic acid is generally warmed slightly because it is not completely soluble and heat helps this. It aids in accuracy of the titration.
as kmno4 acts as a strong reducing agent only in acid medium
Because KMnO4 is an internal indicator.. No need to have any indicator.. it has distinctly different colour when it is reduced
As we all know that the potassium permanganate (KMnO4) is the dark purple color solution ...and in titration it become colorless ....so when the titration is completed ...and the other single drop of KMnO4 solution produce pinkish colour in a beaker ...which indicate that the reaction was completed just a single drop before .. we use indicator in a a reaction in order to indicate ...but we dont used indicator in titration with KMnO4 because it also indicate us by changing its color ...colorless to pink
FeCl2 + 2KMnO4 --> Fe(MnO4)2 + 2KCl
Nitric acid, being a strong oxidising agent, interferes with oxidising capacity of KMnO4 hence reducing accuracy of titration.
Oxalic acid is generally warmed slightly because it is not completely soluble and heat helps this. It aids in accuracy of the titration.
It is probably because a part of the oxygen produced from the reaction of KmnO4 and HCl is used up in oxidising the HCl to Cl2 gas
Analyte is the indicator that is generally added in titration.
Analyte is the indicator that is generally added in titration.
Analyte is the indicator that is generally added in titration.
Mass of H2O2 = 0.637 g
we know the concentration of standardization solution .eg (oxalic acid , mgso4 much more )but wo donot know the concetration of titration solution eg (kmno4 ,EDTA )