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)`)

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 6 Faraday. The amount of PbSo_(4) electrolyzed in moles during the process is__________.

The volume of 0.5 M H_(3)PO_(4) that completely dissolved 3.1 g of copper carbonate is (molecular mass of copper carbonate =124gmol^(-1))

During the discharge of a lead storage battery the density of H_(2)SO_(4) talls from rho_(1)g//cc to rho_(2)g//C , H_(2)SO_(4) of density of rho_(1)g//C . C is X% by weight and tat of density fo rho_(2)gc.c is Y% by weight. The battery holds V litre of acid before discharging. Calculate the total charge released at anode of the battery. The reactions occurring during discharging are ltbr. At anode: Pb+SO_(4)^(2-)toPbSO_(4)+2e^(-) At cathode: PbO_(2)+4H^(+)+SO_(4)^(2-)+2e^(-)toPbSO_(4)+2H_(2)O

Calculate the number of electrons in a small, electrically neutral silver pin that has a mass of 10.0 g . Silver has 47 electrins per atom, and its molar mass is 107.87 gmol^(-1) .

A Zn rod weighing 1.0g is taken in 100mL of 1M CuSO_(4) solution . After some time, [Cu^(2+)] in solution =0.9M( atomic weight of Zn=65.5g) . Which of the following statements is // are correct ? a. 0.655g of Zn was lost during the reaction. b. 0.327 g of Zn was lost during the reaction . c. There is no change in the molarity of SO_(4)^(2-) ion. d. There is a change in the molarity of SO_(4)^(2-) ion.

During the discharge of a lead storage battery, the density of sulphuric acid fell from 1.294 g mL^(-1) to 1.139 g mL^(-) . Sulphuric acid of density 1.294 g mL^(-1) is 39% by weight and that of density 1.139 g mL^(-1) is 20% by weight. The battery hold 3.5 litre of acied and discharge. Calculate the no. of ampere hour for which the battery must have been used. The charging and discharging reactions are: Pb+SO_(4)^(2-) rarr PbSO_(4)+2e (charging) PbO_(2)+4H^(+)+SO_(4)^(2-)+2e rarr PbSO_(4)+2H_(2)O (discharging)

In acidic medium is converted to Mn2+. The quantity of electricity in faraday required to reduce 0.5 mole MnO_(4)^(-) to Mn^(2+) would be :

During the discharge of a lead storage battery, the density of 40% H_(2)SO_(4) by weight fell from 1.225 to 0.98 ( which is 20% by weight ). What is the change in molarities of H_(2)SO_(4) ?

An electric current of 0.4 A is passed through a silver voltameter fro half an hour.Find the amount of silver deposited on the cathode. ECE of silver = 1.12 xx 10^(-4) kg C^(-1)