The anodic half-cell of lead-acid battery is recharged using electricity of 6 Faraday. The amount of `PbSo_(4)` electrolyzed in moles during the process is__________.

The anodic half-cell of lead-acid battery is recharged using electricity of 0.05 Faraday. The amount of PbSO_(4) electrolyzed in g during the process is : (Molar mass of PbSO_(4)=303gmol^(-1) )

The anodic half-cell of lead-acid battery is recharged using electricity of 0.05 Faraday. The amount of PbSO_(4) electrolyzed g during the process is: (Molar mass of PbSO_(4) = gmol^(-1) )

During the recharging of lead acid storage cell the reaction at anode is

Which of the processes happen during the discharging of a lead storage battery? (P) H_(2) (g) is produced (Q) PbO_(2) is converted to PbSO_(4) (R ) The density of the electrolyte solution decreases.

Which of the following reactions occurs at the anode during the recharging of lead storage battery ?

Electrolysis is the process in which electrical energy is converted to chemical energy. In electrolytic cell, oxidation takes place at anode and reduction at cathode. Electrode process depends on the electrode taken for electrolysis. Amount of substance liberated at an electrode is directly propertional to the amount of charge passed through it. The mass of substance liberated at electrode is calculated using the following relation : m= ("ItE")/(96500) Here, E represents the equivalent mass and 96500 C is called the Faraday constant. Faraday (96500 C) is the charge of 1 mole electron, i.e., 6.023 xx 10^(23) electrons, it is used to liberate one gram equivalent of the substance. Calculate the volume of gas liberated at the anode at STP during the electrolysis of a CuSO_(4) solution by a current of 1 A passed for 16 minutes and 5 seconds :

Electrolysis is the process in which electrical energy is converted to chemical energy. In electrolytic cell, oxidation takes place at anode and reduction at cathode. Electrode process depends on the electrode taken for electrolysis. Amount of substance liberated at an electrode is directly propertional to the amount of charge passed through it. The mass of substance liberated at electrode is calculated using the following relation : m= ("ItE")/(96500) Here, E represents the equivalent mass and 96500 C is called the Faraday constant. Faraday (96500 C) is the charge of 1 mole electron, i.e., 6.023 xx 10^(23) electrons, it is used to liberate one gram equivalent of the substance. On electrolysis of dilute sulphuric acid using platinum electrodes, the product obtained at the anode will be :