A 0.5 g sample containing `MnO_(2)` is treated with HCl liberating `Cl_(2)` is passed into a solution of KI and 30.0 " mL of " 0.1 M `Na_(2)S_(2)O_(3)` are required to titrate the liberated iodine. Calculate the percentage of `MnO_(2)` is the sample.

A 0.13 g of a specimen containing MnO_(2) is treated with iodide ions. If iodine liberated requires 30.0 " mL of " 0.075 M solution of Na_(2)S_(2)O_(3) , the percentage of MnO_(2) in the mineral is

A 0.2 g sample containing copper (II) was analysed iodometrically, where copper (II) is reduced to copper (I) by iodide ions. 2Cu^(2+) +4I^(-)rarr2 CuI+I_(2) If 20 mL of 0.1 M Na_(2)S_(2)O_(3) solution is required for titration of the liberated iodine, then the percentage of copper in the sample will be :

638.0 g of CuSO_(4) solution is titrated with excess of 0.2 M KI solution. The liberated I_(2) required 400 " mL of " 1.0 M Na_(2)S_(2)O_(3) for complete reaction. The percentage purity of CuSO_(4) in the sample is

A 0.276 g impure sample of copper ore is dissolved and Cu^(2+) is titrated with KI solution. I_(2) liberated required 40 mL of 0.1 M Na_(2) S_(2) O_(3) solution for titration. What is the % of impurities in the ore ?

6.0 g of a steel containing sulphur as an impurity was burnt in excess of oxygen, where sulphur is oxidised to SO_2 . The SO_2 evolved was oxidised to SO_4^(2-) ions by the action of H_2O_2 solution in the presence of 30 mL solution of 0.04 M NaOH. 22.48 " mL of " 0.024 M HCl was required to neutralise the excess of NaOH after the above oxidation. Calculate the percentage of sulphur in the given sample of steel (Atomic mass of S is 32).

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.

Ozone an estimated in air by passing certaing volume of air through an acidified or neutral or basic KI solution when O_(2) is evolved and I^(ɵ) is oxidised to I_(2) . Free I_(2) evolved is titrated with standard Na_(2)S_(2)O_(3) solution. In an experiment 10 L of air at 1 atom and 27^@C was passed through an alkaline KI solution and I_(2) liberated requried 2 " mL of " (M)/(800)Na_(2)S_(2)O_(3) solution. Calculate the volume percentage of O_(3) in sample.

In the reaction given Mg(s)+NO_(3)^(ɵ)+H_(2)OtoMg(OH)_(2)(s)+overset(ɵ)(O)HO(aq.)+NH_(3)(g) 20 " mL of " sample of NO_(3)^(ɵ) solution is treated with Mg. The NH_(3)^(g) was passed into 50 " mL of " 0.1 M HCl. The excess HCl requried 30 " mL of " 0.1 M KOH for its neutralisation calculate the molarity of NO_(3)^(ɵ) ions in the original sample?

8.7 gm of pure MnO_(2) is heated with an excess of HCl and the gas evolved is passed into a solution of KI. The amount of I_(2) liberated is [Atomic mass O = 16, Mn = 55]

0.71 g of a sample of bleaching powder (CaOCl_2) is dissolved in 100 " mL of " water. 50 " mL of " this solution is titrated with KI solution. The I_2 so liberated required 10 mL 0.1 M Na_2S_2O_3 (hypo) solution in acidic medium for complete neutralisation. Calculate the percentage of available Cl_2 from the sample of bleaching power.