In passing `3F` of electricity through three electrolytic cells connect in series containing `Ag^(o+),Ca^(2+),` and `Al^(3+)` ions, respectively. The molar ratio in which the three metal ions are liberated at the electrodes is

Three moles of electrons are passed through three solutions in succession containing AgNO_(3),CuSO_(4) and AuCI_(3) respectively. The molar ratio of amounts of cations reduced at cathode will be:-

Three moles of electrons are passed through three solutions in succession containing AgNO_(3),CuSO_(4) and AuCl_(3) respectively. The molar ratio of amounts of cations reduced at cathode will be

If same quantity of electricity is passed through three electrolytic cells containing FeSO_(4),Fe_(2)(SO_(4))_(3) , and Fe(NO_(3))_(3) , then

Exactly 0.2 mole electrons are passed through two electrolytic cells in series containing CuSO_(4) and ZnSO_(4) respectively. How many grams of each metal will be deposited on the respective cathodes in the two cells ?

Three mole of electrons are passed through three solutions in succession containing AgNO_(3), CuSO_(4) and AuCl_(3) respectively. The ratio of amounts of cations reduced at cathode will be :

Exactly 0.4 faraday of charge is passed through three electrolytic cells connected in series, first containing AgNO_(3) , second CuSO_(4) while third containing FeCl_(3) solution. How many grams of each metal will be deposited assuming only cathodic reaction in each cell ?

One faraday of charge was passed through the electrolytic cells placed in series containing solution of Ag^(+), Ni^(2+) " and " Cr^(3+) respectively. The amount of Ag (At. mass 108), Ni (At. mass 50) and Cr(At. mass 52) deposited will be:

On passing one faraday of elecricity throuth the electrolytic cells containing Ag^+ , Ni^(+3) and Cr^(+3) ion solutions, the deposited Ag (AT. Wt. = 108) Ni (At. Wt = 59 ) and Cr (At wt. = 52) is .