Same quantity of electricity is being used to liberate iodide (at anode) and a metal x (at cathode). The mass of x liberated is `0.617g` and the iodide liberated is completely reduced by `46.3` c c of `0.124M` sodium thiosulphate. Find the equivalent mass of metal x.

Same quantity of charge is being used to liberate iodine (at anode) and a metal M (at cathode). The mass of metal M liberated is 0.617 g and the liberated iodine is completely reduced by 46.3 mL of 0.124 M sodium thio-sulphate. Calculate equivalent weight of metal. Also calculate the total time to bring this change if 10 ampere current passed through solution of metal iodide.

0.5 g mixture of K_(2)Cr_(2)O_(7) and KMnO_(4) was treated with excess of KI in acidic medium. Iodine liberated required 100 cm^(3) of 0.15N sodium thiosulphate solution for titration. Find the per cent amount of each in the mixture.

0.10g of a sample conining CuCo_3 and some inert impurity was dissolved in dilute sulphuric acid and volume made up to 50mL . This solution was added into 50mL of 0.04MKI solution where copper precipitates as CuI and I^- is oxidized into I_3^- . A 10mL portion of this solution is taken for analysis, filtered and made up free I_3^- and then treated with excess of acidic permanganate solution. Liberated iodine required 20mL of 2.5mM sodium thiosulphate solution to reach the end point . Determine mass percentage of CuCO_3 in the original sample.

To a 25 mL H_(2)O_(2) solution excess of an acidified solution of potassium iodide was added. The iodine liberated required 20 mL of 0.3 N sodium thiosulphate solution Calculate the volume strength of H_(2)O_(2) solution.

When dissolved in dilute sulphuric acid, 0.275 g of a metal evolved 119.7 mL of hydrogen at 20°C and 763 mm pressure. What is the equivalent mass of the metal ?

0.10 g of a sample containing CuCO_(3) and some inert impurity was dissolved in dilute sulphuric acid and volume made up to 520 mL. This solution was added into 50mL of 0.04 M KI solution where copper precipitates as Cul and I^(-) is oxidized into I_(3)^(-) . A 10 mL portion of this solution is taken for analysis, filtered and made up free I_(3)^(-) and then treated with excess of acidic permanganate solution. Liberated iodine required 20 mL of 2.5 mM sodium thiosulphate solution to reach the end point. Determine mass percentage of CuCO_(3) in the original sample.

A metallic chloride contained 47.23% of metal 'M'. 1.0 g of this metal displaced from a compound 0.88 g of another metal X. What will be the equivalent mass of metal M ?

Same quantity of current is passed through molten NaCl and molten cryolite containing Al_(2)O_(3) . If 4.6g of Na was liberated in one cell, the mass of Al liberated in the other cell is 1) 0.9g 2) 1.8g 3) 2.7g 4) 3.6g

A metal piece weighing 15 g is heated to 100^(@)C and then immersed in a mixture of ice and water at the thermal equilibrium. The volume of the mixture is found to be reduced by 0.15 cm^(3) with the temperature of mixture remaining constant. Find the specific heat of the metal. Given specific gravity of ice = 0.92 , specific gravity of water at 0^(@)C = 1.0 , latent heat of fusion of ice = 80 cal-g^(-1) .

A certain quantity of electricity deposits 0.54 g of Ag from silver nitrate solution. What volume of hydrogen will be liberated by the same quantity of electricity at 27^(@)C and 750 mm of Hg pressure ?