Calculate the currect required to deposit 1 g copper in 30 minutes in a voltmeter contaning cupric sulphate . Atommic mass od slver =107.9 , atomic mass of copper =63.6 and ECE of silver `=0.00118g C ^(-1)`

Calculate the number of coulombs required to deposit 50 g of silver at cathode from silver nitrate solution. (Atomic mass of silver = 108)

Calculate the electric current required to deposit 0.972 g of chromium in 3 hours . ECE of chromium is 0.00018 g C^(-1)

Find the strengh of currect that deposited 0.777 g of matallic copper in half an hour in a copper voltameter .The atomic mass of copper is 63 and ECE of hydrogen is 0.00001036 g C^(-1)

Calculate the electric current required to deposit 0.972 g of chromium in three hours. ECE of chromium is 0.00018 g C^(-1)

A steady current of 10.0 A is maintained in a copper voltameter . Calculate the time required to deposit 2.5 g of copper . Relative atomic mass of copper = 63.5 g .

Calculate the time required to deposit 1.27 g of copper at cathode when a current of 2A was passed through the solution of CuSO_(4) . ("Molar mass of "Cu=63.5g mol^(-1), 1F =96500 C mol^(-1)).

A copper voltameter is connected in series with a tangent galvanometer of 10 turns and 5cm in radius. Calculate the weight of copper is deposited in 30 minutes if the deflection of the galvanometer is 60^(@) . (Horizontal component of earth's field =28A m^(-1)and "E.C.E of copper" =32.8 xx 10^(-8)kgC^(-1) .

A current of 5A is passed fir 5hours through three voltameters arranged in series, containing solution of copper sulphate. Silver nitrate and sulphuric acid. Calculate the masses of silver, copper and hydrogen liberated (E.C.E of silver =11.18xx10^(-7) kg C^(-1) m=, atomic weight of silver =107.88, atomic weight of copper =63.57 and atomic weight weight of hyrdrogen=1.008.)