Corrosion of iron is essentially an electrochemical phenomenon where the cell reactions are
Fe is oxidised to Fe2+ and dissolved oxygen in water is reduced to OH-.
Fe is oxidised to Fe3+ and H2O is reduced to O.
Fe is oxidised to Fe2+ and H2O is reduced to O.
Fe is oxidised to Fe2+ and H2O is reduced to O2.
When a quantity of electricity is passed through CuSO4 solution, 0.16 g of copper gets deposited. If the same quantity of electricity is passed through acidulated water, then the volume of H2 liberated at STP will be : [given : atomic weight of Cu = 64]
4.0 cm3
56 cm3
604 cm3
8.0 cm3
Which one of the following condition will increase the voltage of the cell represented by the equation?
Cu(s) + 2Ag+(aq) Cu2+(aq) + 2Ag(s)
Increase inthe dimension of Cu electrode
Increase in the dimension of Ag electrode
Increase inthe concentration of Cu2+ ion.
Increase in the concentration of Ag+ ions.
Which of the following electrolytic solutions has the least specific conductance?
0.02N
0.2 N
2 N
0.002 N
Hydrogen gas is not liberated when the following metal is added to dil HCl
Ag
Zn
Mg
Sn
A.
Ag
The metals, present below hydrogen in the electrochemical series, cannot liberate hydrogen from the dilute acids. Among the given metals only Ag is present below hydrogen in electrochemical series, so it does not evolve hydrogen with dil HCl.
Ag + dil HCl No reaction
The standard electrode potential for the half-cell reactions are
Zn2+ + 2e- → Zn; E° = -0.76 V
Fe2+ + 2e- → Fe; E° = 0.44 V
The emf of the cell reaction, Fe2+ + Zn → Zn2+ + Fe is
-0.32 V
-1.20 V
+1.20 V
+0.32 V
In the electrolysis of acidulated water, it is desired to obtain 1.12 cc of hydrogen per second under STP condition. The current to be passed is
1.93 A
9.65 A
19.3 A
0.965 A
The one which decreases with dilution is
molar conductance
conductance
specific conductance
equivalent conductance
9.65 C of electric current is passed through fused anhydrous magnesium chloride. The magnesium metal thus, obtained is completely converted into a Grignard reagent. The number of moles of the Grignard reagent obtained is
5 × 10-4
1 × 10-4
5 × 10-5
1 × 10-5