The amount of metal deposited at cathode on passing electric current of 0.75 ampere in aqueous ferris sulphate solution for 30 mintes, will be. (atomic weight of Fe=56)

M^(2+) +2e rarr M. 0.275 g of metal M is deposited at the cathode due to passage of 1A of current for 965s. Hence atomic weight of the metal M is:-

Cd amalgam is preapred by electrolysis of a solution CdCI_(2) using a mercury cathode. How long should a current of 5A be passed in order to prepare 12% Cd-Hg amalgam on a cathode of 2g, Hg ( atomic weight of Cd = 112.4)

A solution contains A^(+) and B^(+) in such a concentration that both deposit simultaneously. If current of 9.65 amp was passed through 100ml solution for 55 seconds then find the final concentration of A^(+) ion if initial concentration of B^(+) is 0.1M . [Fill your answer by multiplying it wity 10^(3)] . Given: {:(A^(+)+e^(-)rarrA,,E^(@) =- 0.5 "volt"),(B^(+)+e^(-)rarrB,,E^(@) =- 0.56 "volt"),((2.303RT)/(F) =0.06,,):}

A copper refining cell consists of two parallel copper plate electrodes 5 cm apart and 1 metre squre, immersed in a copper sulphate solution of resistivity 12xx10^(-2)Omegam . Then the potential difference which must be established between the plates to provide a constant current to deposit 0.66kg of copper on cathode in one hour is nearly (Z=3.33xx10^(-7)kg//C)

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.