The standard reduction potential for Fe2+/Fe and Sn2+/Sn electrodes are - 0.44 and- 0.14 V respectively. For the cell reaction, the standard emf is
+ 0.30 V
- 0.58 V
+ 0.58 V
- 0.30 V
How is electrical conductance of a conductor related with length and area of cross section of the conductor?
G = κ· l· a-1
G = l· a· κ-1
G = κ· a· l-1
G = κ· a· l-2
The overall reaction taking place at anode during electrolysis of fused sodium chloride using suitable electrode is
oxidation of chloride
reduction of sodium ions
reduction of chlorine
oxidation of sodium atoms
Which among the following solutions is not used in determination of the cell constant?
10-2 M KCl
10-1 M KCl
1 M KCl
Saturated KCl
How many Faradays of electricity are required to deposit 10g of calcium from molten calcium chloride using inert electrodes? ( Molar mass of calcium = 40g mol-1)
0.5 F
1F
0.25 F
2 F
A.
0.5 F
Relationship obtained on combining Faraday's first and second laws.
0.5 F of electricity is required to deposit 10 g of calcium from molten calcium chloride using inert electrodes.
In the cell represented by
Pb(s)|Pb2+(1M) || Ag+(1M)| Ag(s), the reducing agents is
Pb2+
Pb
Ag
Ag+
Consider the equilibrium obtained by electrically connecting zinc-amalgam Zn(Hg) and HgO electrodes in mercury cell,
Au(Hg) + HgO (s) ZnO (s) + Hg (l)
Under this equilibrium, what is the relation between the potential of the Zn(Hg) and HgO electrodes measured against the standard hydrogen electrode?
Zn(Hg) electrode potential is equal to HgO electrode potential.
Zn(Hg) electrode potential is more than HgO electrode potential.
HgO electrode potential is more than Zn(Hg) electrode.
Cell voltage at above said equilibrium is 1.35 V
The standard reduction potential for Zn2+ /Zn, Ni2+ /Ni and Fe2+ /Fe are respectively -0.76, -0.23 and -0.44 V. The reaction X + Y2+ → X2+ + Y will have more negative G value when X and Y are
X = Ni; Y = Fe
X = Ni; Y = Zn
X = Fe; Y = Zn
X = Zn; Y = Ni