Electrolysis of dilute aqueous NaCl solution was carried out by passing 10 mA current. The time required to liberate 0.01 mole of `H_2` gas at the cathode is : `(1f= 96500C mol^(-1)`

Electrolysis of dilute aqueous NaCl solution was carried out by passing 10mA current. The time required to liberate 0.01 mole of H_(2) gas at the cathode is ( 1F = 96500 C "mol"^(-1) )

Electrolysis of dilute aqueous NaCl solution was carried out by passing 10mA current. The time required to liberate 0.01mol of H_(2) gas at the cathode is (1F=96500C mol ^(-1))

Electrolysis of dilute aqueous NaCl solution was carried out by passing 10mA current. The time required to liberate 0.01mol of H_(2) gas at the cathode is (1F=96500C mol ^(-1))

Electrolysis of dilute aqueous NaCl solution was carried out by passing 10 miliampere current. The time required to liberate 0.01 mol of H_2 gas at the cathdoe is

Electrolysis of dilute aqueous NaCl solution was carried out by passing 10mA current. The time required to liberate 0.01mol of H_(2) gas at the cathode is (1F=96500C mol ^(-1)) (a) 9.65xx10^(4)s (b) 19.3xx10^(4)s (c) 28.95xx10^(4)s (d) 38.6xx10^(4)s

Electrolysis of dilute aqueous NaCl solution was carried out by passing 10 milli ampere current. The time required to liberate 0.01 mole of H_(2) gas at the cathode is:

Electrolysis of dilute aqueous NaCl solution was carried out by passing 10A current. The time required (in seconds) to liberate 0.01 mole of H2 gas at the cathode is: [IF = 96500 C]

Electrolysis of dilute aqueous NaCl solution was carried out by passing 10 milli ampere current. The time required to liberate 0.01 mol of H_(2) gas at the cathode is (1 Faraday=96500 C mol^(-1) )