A lead storage battery has initially 200 g of lead and 200 g of `PbO_(2)`, plus excess `H_(2)SO_(4)`. How long could this cell deliver a current of 10 amp, without recharging, if it was possible to operate it so that the reaction goes to completion ?

A lead storage battery containing 5.0 L of 1N H_(2)SO_(4) solution is operated for 9.65xx10^(5) s with a steady current of 100 mA. Assuming volume of the solution remaining constant, normality of H_(2)SO_(4) will

In a lead storag battery, Pb (anode) and PbO_(2) (cathode) are used. Concentrated H_(2)SO_(4) is used as electrolyte. The battery holds 3.5 litre acid with it . In the discharge process, the density of acid fell from 1.294 to 1.139 g/mL. The sulphuric acid of density 1.294" g mL"^(-1) is 39 % by mass and that of density 1.139 g/mL is 20% by mass. Equivalent mass of sulphuric acid in lead storage battery is :

In a lead storag battery, Pb (anode) and PbO_(2) (cathode) are used. Concentrated H_(2)SO_(4) is used as electrolyte. The battery holds 3.5 litre acid with it . In the discharge process, the density of acid fell from 1.294 to 1.139 g/mL. The sulphuric acid of density 1.294" g mL"^(-1) is 39 % by mass and that of density 1.139 g/mL is 20% by mass. The amount of charge which the battery must have been used is :

In a lead storag battery, Pb (anode) and PbO_(2) (cathode) are used. Concentrated H_(2)SO_(4) is used as electrolyte. The battery holds 3.5 litre acid with it . In the discharge process, the density of acid fell from 1.294 to 1.139 g/mL. The sulphuric acid of density 1.294" g mL"^(-1) is 39 % by mass and that of density 1.139 g/mL is 20% by mass. Which of the following takes place in discharge process at anode ?