If the standard emf of the reaction:
Fe + 2 Fe3+ →3Fe2+
will be:
0.330 V
1.653 V
A hypothetical electrochemical cell is shown below
A- | A+ (xM)|| B+ (yM)|B+
The emf measured is +0.20 V. The cell reaction is:
A+ + B → A + B+
A+ + e- → A ; B+ + e- → B-
the cell reaction cannot be predicted
the cell reaction cannot be predicted
Concentration of the Ag+ ions in a saturated solution of Ag2C2O4 is 2.2 ×10–4 mol L–1. Solubility product
2.42 × 10–8
2.66 × 10–12
4.5 × 10–11
4.5 × 10–11
In the electrochemical cell :
Zn|ZnSO4(0.01M)||CuSO4(1.0 M)|Cu, the emf of this Daniel cell is E1. When the concentration of ZnSO4 is changed to 1.0 M and that of CuSO4 changed to 0.01 M, the emf changes to E2. From the following, which one is the relationship between E1 and E2?
(Given, RT/F= 0.059)
E1= E2
E1< E2
E1> E2
E1> E2
When a lead storage battery is discharged;
SO2 is evolved
lead sulphate is consumed
lead is formed
sulphuric acid is consumed
The value of reaction quotient [Q], for the following cell
Zn(s)|Zn2+ (0.01 M)|| Ag+ (1.25 M | Ag (s) is
156
125
1.25 x 10-2
6.4 x 10-3
The standard reduction potential for Zn2+/Zn, Ni2+/Ni and Fe2+/Fe are -0.76, -0.23 and -0.44 V, respectively.
The reaction X + Y2+ → X2+ + Y will be spontaneous when
X = Ni, Y = Fe
X = Ni, Y = Zn
X =Fe, Y = Zn
X = Zn, Y = Ni
For the cell reaction,
Pb + Sn2+ Pb2+ + Sn
Given that, Pb Pb2+, E = 0.13 V
Sn2+ +2e- Sn, E = -0.14 V
What would be the ratio of cation concentration for which E = 0 ?
In the reaction,
X + I2 + 2HCl SnCl4 + 2HI
The correct option regarding X is/ are
It is an strong reducing agent
It is an angular molecule
It is used as a reagent in test of Hg2+ radical
All of the above
The E values for Mn and Zn are more negative than expected because
they have either half-filled and fully-filled configurations
they can easily donate electrons
it is quite easy to remove electrons from their orbitals
None of the above
A.
they have either half-filled and fully-filled configurations
The values of standard electrode potentials for Mn, and Zn are more negative than expected. The reason behind this is that they have exactly half-filled and fully-filled configuration ons.
25Mn : [Ar]183d54s2
30Zn : [Ar] 3d104s2