An acidic solution of `Cu^(2+)` salt containing `0.4g` of `Cu^(2+)` is electrolyzed until all the copper is deposited. The electrolysis is continued for seven more minutes with the volume of solution kept at `100mL` and the current at `1.2A`. Calculate the volume of gases evolved at `STP` during the entire electrolysis.

An acidic solution of Cu^(2+0 salt containing 0.4g of Cu^(2+) is electrolyzed until all the copper is deposited. The electrolysis is continued for seven more minutes with the volume of solution kept at 100mL and the current at 1.2A . Calculate the volume of gases evolved at STP during the entire electrolysis.

An acidic solution of Cu^(2+) ions containing 0.4 g of Cu^(2+) ions is electrolysed until all the copper is deposited. Calculate the volume of oxygen evolved at N.T.P.

A current of 1.0A is passed for 96.5s trhough a 200mL solution of 0.05 M LiCl solution. Find a. The volume of gases produced at STP b. The pH of solution at the end of electrolysis

In the electrolysis of aqueous NaCl ,what volume of Cl_2 (g) is produced in the time that it takes to liberate 5.0 liter of H_2 (g) ? Assume that both gases are measured at STP.

10 mL of a given solution of H_(2)O_(2) contains 0.91 g of H_(2)O_(2) . Express its strength in volume.

2.5 amperes of current is passed through copper sulphate solution for 30 minutes. Calculate the number of copper atoms deposited at the cathode (Cu = 63.54).

10ml of sulphuric acid solution (sp.gr.=1.84) contains 98% weight of pure acid. Calculate the volume of 2.5 M NaOH solution required to just neutralise the acid.

During electrolysis of an aqueous solution of CuSO_(4) using copper electrodes, if 2.5g of Cu is deposited at cathode, then at anode

During the electrolysis of acidified solution of copper sulphate , the Cu^(2+) ions migrate towards _______ .

Copper sulphate solution (250 ML) was electrolyzed using a platinum anode and a copper cathode. A constant current of 2mA was passed for 16 mi n . It was found that after electrolysis the absorbance of the solution was reducted to 50% of its original value . Calculate the concentration of copper sulphate in the solution to begin with.