Advertisements
Advertisements
प्रश्न
Explain the variation in `"E"_ ("M"^(3+)//"M"^(2+))^0` 3d series.
Advertisements
उत्तर
Transition metals in their high oxidation states tend to be oxidising. The standard reduction potential for the M3+/M2+ half cell gives the relative stability between M3+ and M2+.
| Reaction | Standard reduction potential (V) |
| \[\ce{Ti^3+ + e^- -> Ti^2+}\] | −0.37 |
| \[\ce{Y^3+ + e^- -> V^2+}\] | −0.26 |
| \[\ce{Cr^3+ + e^- -> Cr^2+}\] | −0.41 |
| \[\ce{Mn^3+ + e^- -> Mn^2+}\] | +1.51 |
| \[\ce{Fe^3+ + e^- -> Fe^2+}\] | +0.77 |
| \[\ce{Co^3+ + e^- -> Co^2+}\] | +1.81 |
The negative values for titanium, vanadium and chromium indicate that the higher oxidation state is preferred.
The high reduction potential of M3+/M2+ indicates Mn2+ is more stable than Mn3+.
APPEARS IN
संबंधित प्रश्न
Which one of the following ions has the same number of unpaired electrons as present in V3+?
The magnetic moment of Mn2+ ion is ____________.
The catalytic behaviour of transition metals and their compounds is ascribed mainly due to ____________.
The correct order of increasing oxidizing power in the series
Complete the following.
\[\ce{MnO^2-_4 + H^+ ->?}\]
What are interstitial compounds?
Explain briefly how +2 states become more and more stable in the first half of the first-row transition elements with increasing atomic numbers.
Compare the ionization enthalpies of the first series of the transition elements.
Describe the variable oxidation state of 3d series elements.
Which metal in the 3d series exhibits +1 oxidation state most frequently and why?
