During discharging of lead-storage acid battery following reaction takes place:
`Pb(S)+PbO_(2)(S)+2H_(2)SO_(4)`
`rarr2PbSO_(4)(S)+2H_(2)O`
If `2.5` amp of current is drawn for 965 minutes, `H_(2)SO_(4)` consumed is :

During discharging of lead-storage acid battery following reaction takes place : Pb(s) +PbO_(2)(s)+2H_(2)SO_(4)rarr 2PbSO_(4)(s)+2H_(2)O If 2.5 amp of current is drawn for 965 minutes, H_(2)SO_(4) consumed is :

When lead acid accumulator ( battery ) is dischanged , following reaction takes place. Pb(s) +PbO_(2)(s)+2H_(2)SO_(4)(aq.) rarr 2PbSO_(4)(s)+2H_(2)O If 1.25 ampere current is drawn for a period of 1930 minutes, mass of H_(2)SO_(4) consumed is

A fully charged lead-storage battery contains 1.5L of 5M H_(2)SO_(4) . During discharging of lead-storage acid battery, following reaction takes place: Pb(s)+PbO_(2)(s)+2H_(2)SO_(4)rarr2PbSO_(4)(s)+2H_(2)O

A fully charged lead-storage battery contains 1.5L of 5M H_(2)SO_(4) . During discharging of lead-storage acid battery, following reaction takes place: Pb(s)+PbO_(2)(s)+2H_(2)SO_(4)rarr2PbSO_(4)(s)+2H_(2)O

Equivalent weight of H_(2)SO_(4) in the following reaction (Pb(s) + PbO_(2)(s) + H_(2)SO_(4) rightarrow PbSO_(4) + H_(2)O is

While the discharging of a lead storage battery following reaction take place. PbO_(2) +Pb +4H^(+) +2SO_(4)^(-2) rarr 2PbSO_(4) +2H_(2)O ,E^(@) = 2.01 Calculate the energy (in kJ) obtained from a lead storage battery in which 0.014 mol of lead is consumed. Assume a constant concentration of 10.M H_(@)SO_(4)(log2 = 0.3)

While the discharging of a lead storage battery following reaction take place. PbO_(2) +Pb +4H^(+) +2SO_(4)^(-2) rarr 2PbSO_(4) +2H_(2)O ,E^(@) = 2.01 Calculate the energy (in kJ) obtained from a lead storage battery in which 0.014 mol of lead is consumed. Assume a constant concentration of 10.M H_(@)SO_(4)(log2 = 0.3)

While the discharging of a lead storage battery following reaction take place. PbO_(2) +Pb +4H^(+) +2SO_(4)^(-2) rarr 2PbSO_(4) +2H_(2)O ,E^(@) = 2.01 Calculate the energy (in kJ) obtained from a lead storage battery in which 0.014 mol of lead is consumed. Assume a constant concentration of 10.M H_(@)SO_(4)(log2 = 0.3)