A constant current flowed for 30 min through a solution of Kl oxidising the iodide ion to iodine At the end of experiment the iodine is titrated with 10ml 0.075 M `Na_(2)S_(2)O_(3)` solution. Calculate the strength of current

A constant current was flowen for 1 mi n through a solution of Kl . At the end of experiment, liberated I_(2) consumed 150mL of 0.01M solution of Na_(2)S_(2)O_(3) following the reaction : I_(2)+2S_(2)O_(3)^(2-) rarr 2I^(c-)+S_(4)O_(6)^(2-) What was the average rate of current flow in ampere ?

For estimating ozone in the air, a certain volume of air is passed through an . Alkaline Kl solution when O_(2) is evolved and iodide is oxidized to iodine . When such a solution is acidified , free iodine is evolved which can be titrated with standard Na_(2)S_(2)O_(3) . Solution : in an experiment, 10 L air at 1 atm and 27^(@) C were passed through an alkaline Kl solution , and at the end, the iodine was entrapped in a solution which on titration as above required 1.5 ml of 0.01 N Na_(2)S_(2)O_(3) solution. Calculate volume percentage of ozone in the sample.

A constant current was flown for 2 hour through a solution of KI. At the end of experiment liberated lodlne consumed 21.75 mL of 0.0831 M solution of sodium thiosulphate followihg the reaction: I_(2)+2S_(2)O_(3)^(2-) to 2I^(-) +S_(4)O_(6)^(2-) . What was the aveagre rate of current flow in ampere?

A 10 ampere current is passed through 500 ml NaCI solution for 965 seconds Calculate pH solution at the end of electrolysis.

A 3.00 g sample containing Fe_(3)O_(4), Fe_(2)O_(3) and an inert impure substance, is treated with excess of KI solution in presence of dilute H_(2)SO_(4) . The entire iron is converted into Fe^(2+) along with the liberation of iodine. The resulting solution is diluted to 100 mL. A 20 mL of the dilute solution requires 11.0 mL of 0.5 M Na_(2)S_(2)O_(3) solution to reduce the iodine, present. A 50 mL of the dilute solution after complete extraction of the iodine required 12.80 mL of 0.25 M KMnO_(4) solution in dilute H_(2)SO_(4) medium for the oxidation of Fe^(2+) . Calculate the % of Fe_(2)O_(3) "and" Fe_(3)O_(4) in the original sample.

1.249 g of a sample of pure BaCO_(3). and impure CaCO_(3) containing some CaO was treated with dil . HCl and it evoled 168 ml of CO_(2) at NTP . From this solution , BaCrO_(4) was precipitated , filtered and washed . The precipitate was dissolved in dilute sulphauric acid and diluted to 100 ml. 10 ml of this solution , when treated with Kl solution , liberated iodine which required exactly 20 ml of 0.05 ml of 0.05 N Na_(2)S_(2)O_(3) . Calculate the percentage of CaO in the sample.

100mL of 0.5 M CuCO_4 (aq) solution was electrolysed using inert electrodes by passing current till the pH of the resulting solution was 2. The solution after electrolysis was neutralized and then treated with excess KI and formed I_2 titrated with 0.04 M Na_2SO_2O_3 Calculate the required volume (in mL) of Na_2SO_2O_3 :

In iodometric titrations, an oxidizing agent such as KNnO_(4), K_(2)Cr_(2)O_(7),CuSO_(4),H_(2)O_(2) is allowed to react in neutral medium or in acidic medium with excess of potassium iodide to liberate free iodine Kl+ oxidizon agent to l_(2) Free iodine is titrated against stanard reducing agent usually with sodium thiosulphate i.e., K_(2)Cr_(2)O_(7)+6Kl+7H_(2)SO_(4)toCr_(2)(SO_(4))_(3)+4K_(2)SO_(4)+7H_(2)O+l_(2) 2CuSO_(4)+4Kl to Cu_(2)l_(2)+2K_(2)SO_(4)+l_(2) l_(2)+Na_(2)S_(2)O_(3)to 2Nal+Na_(2)S_(4)O_(6) In iodometric titrations, starch solution is used as an indicator. Starch solution gives blue or violet colour with free iodine. At the end point, blue or violet colour disappear when iodine is completely changed to iodide. What volume of 0.40M Na_(2)S_(2)O_(3) would be required to reach with l_(2) liberated by adding 0.04 mole of Kl to 50 mL to 0.20 M CuSO_(4) solution?

12. g of an impure sample of arsenious oxide was dissolved in water containing 7.5 g of sodium bicarbonate and the resulting solution was diluted to 250 mL . 25 mL of this solution was completely oxidised by 22.4 mL of a solution of iodine. 25 mL of this iodine solution reacted with same volume of a solution containing 24.8 g of sodium thiosulphate (Na_(2)S_(2)O_(3).5H_(2)O) in one litre. Calculate teh percentage of arsenious oxide in the sample ( Atomic mass of As=74 )

A 4.0 g sample contained Fe_2O_3,Fe_3O_4 , and inert material. It was treated with an excess of aq KI solution in acidic medium, which reduced all iron to Fe^(2+) ions along with the liberation of iodine . The resulting solution was diluted to 50 mL and a 10 mL sample of it was taken the iodine liberated in the small sample was titrated with 12.0 " mL of " 0.5 M Na_2S_2O_3 solution. The iodine from another 25 mL was extracted, after which the Fe^(2+) ions were titrated with 16 " mL of " 0.25 M MnO_4^(ɵ) ions in H_2SO_4 solution. Calculate the mass of two oxides in the original mixture.