The atomic weight of Fe is 56. The weight of Fe deposited from `FeCl_(3)` solution by passing 0.6 Faraday of electricity is _________.

The amount of electricity that should be passed through CuSO_(4) solution with Cu electrodes to deposit 0.1 g atom of Cu is _________.

The passage of 0.95 A for 40 minutes deposited 0.7493 g of Cu from CuSO_4 solution. Calculate the molar mass of Cu.

The passage of 0.95 A for 40 minutes deposited 0.7493 g of Cu from CuSO_4 solution. Calculate the molar mass of Cu.

Element A( atomic mass 112) and element B (atomic mass 27) from chlorides. Solutions of these chlorides are electrolysed seperately and it is found that when the same quantity of electricity is passed 5.6 g of A was deposited while only 0.9 g if B was deposited. If the valency of B is 3, then the valency of A is _________.

Number of atoms is 560 g of Fe (atomic mass =56) is

When a current of 3A is passed through an aqueous solution of a palladium salt, the mass of Pd metal deposited in 1 hour is 2.98 g. If the metal's atomic mass is 106.4, the valency of palladium is _________.

A metal 'M' is known to form the fluoride MF_(2) . When 10 A of electricity is passed through the molten salt for 330 s, 1.950 g of metal is deposited . The atomic mass of M is _________.

Inthe electrolysis of AgNO_3 solution 0.7g of Ag is deposited after a certain period of time.Calculate the quantity of electricity required in coulomb. Molar mass of Ag is 107.9 g mol^(-1) .

Quantity of electricity which liberates 108 g of Ag from AgNO_(3) solution is equal to_________.