A current of 2.0 A when passed for 5 hrs through a molten slat deposits 22.2 g of metal (of atomic weight 177) The oxidation state of metal in metal salt is

A current of 2.0A passed for 5 hours through a molten metal salt deposits 22.2 g of metal (At. Wt. =177). The oxidation state of the metal in the metal salt is

A current of 2A is passed for 1.93 xx 10^(4)s through a molten tin salt depositing 23.8 g Sn (Aw of Sn=119) . The oxidation state of Sn in the salt is ………………………… .

The oxidation number of the central metal atom in Na_2CrO_4

A current of 4A is passed through a molten solution for 45 min. 2.977 g of metal is deposited. Calculate the charge carried by the metal cation if its atomic mass is 106.4 g/mol.

A current of 5.0 A flows for 4.0 h through an electrolytic cell containing a molten slat of metal M. This result in deposition of 0.25 mol of the metal M at the cathode. The oxidation state of M in the molten salt is +x . The value of 'x' is (1 Faraday = 96000 C mol^(-1) ) 3

A current of 0.65A flowing for 10 minutes, deposit 2.0g of a metal. The equivalent weight of the metal is

10800 C of electricity passed through an electrolyte deposited 2.977 g of metal with atomic mass 106.4 " g mol"^(-1) The charge on the metal cation is :

Identify the species in which the metal atom is in +6 oxidation state.

10800 C of electricity passed through the electrolyte deposited 2.977g of metal with atomic mass 106.4 g mol^(-1) . The charge on the metal cation is

A current of 9.95 amp following for 10 minutes, deposits 3 gm of a metal. Equivalent weight of the metal is: