How would you account for the following:...

How would you account for the following:
of the `d^(4)` species `Cr^(2+)` is strongly reducing while manganese(III) is strongly oxiding.
Cobalt(II) is stable in aqueous solution but in the presence of complexing reagents it is easily oxidised.
The `D^(1)` configuration is very unstable in ions.

Text Solution

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The correct Answer is:

(i) `E^(0)` value for `Cr^(3+)//Cr^(2+)` is negative `(-0.41V)` whereas `E^(0)` value for `Mn^(3+)//Mn^(2+)` is positve `(+1.57V)` Hence, `Cr^(2+)` ions can easily undergo oxidation to give `Cr^(3+)` ions and , therefore , act as strong reducing agent whereas `Mn^(3+)` can easily undergo reduction to give `Mn^(2+)` and hence acts as oxidizing agent
(ii) `3d^(6)` has higher `CFSE`
`(C ) The ions with `D^(1)` configuration have the tendency to lose the only electron present in d-subshell to acquire stable `d^(0)` configuration . Hence , they are unstable and undergo oxidation agent.

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Which of the following species with d^(6) configuration is stable in the presence of strong complexing reagents ?

Fe `( +2)`

Co `( +3)`

Cu `( +1)`

Ni `( +2)`

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How would you account for the following: (a) of the d^(4) species, Cr^(2+) is strongly reducing while Mn^(3+) is strongly oxidizing, (b) Co^(2+) is stable in aqueous solution but in the presence of complexing reagents it is easily oxidised. (c) The d^(1) configuration is very unstable in ions.

How would you account for the following ? (i) Of the d^(4) species , Cr^(2+) is strongly reducting while manganese (III) is strongely oxidizing. (ii) Cobalt (III) is stable in aqueous solution but in the presence of complexing reagents , it is easily oxidized. (iii) The d^(1) configuration is very unstable in ions.

Cobalt (II) is stable in aqueous solution but in the presence of complexing reagents ( strong field ligands ) it is readily oxidised. Why ?

How will you account for the following : (i) Cobalt (II) is stable in aqueous solution but in the presence of a complexing agent, it is easily oxidized. (ii) Out of d^(4) species, Cr^(2+) is strongly reducing while Mn^(2+) is strongly oxidising .

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How would you account for the following ? (i) With the same d-orbital configuration (d^(4)) Cr^(2+) is reducting agent while Mn^(3+) is an oxidizing agent. (ii) The actionoids exhibits a larger numbe of oxidation states than the corresponding members in the lanthanoid series. (iii) Most of the transition metal ions exhibit characteristic in colours in aqueous solutions.

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How would you account for the following: of the `d^(4)` species `Cr^(2+)` is strongly reducing while manganese(III) is strongly oxiding. Cobalt(II) is stable in aqueous solution but in the presence of complexing reagents it is easily oxidised. The `D^(1)` configuration is very unstable in ions.

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Which of the following species with d^(6) configuration is stable in the presence of strong complexing reagents ?

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RESONANCE-D BLOCK ELEMENTS-BOARD LEVEL EXERCISE

How would you account for the following:
of the `d^(4)` species `Cr^(2+)` is strongly reducing while manganese(III) is strongly oxiding.
Cobalt(II) is stable in aqueous solution but in the presence of complexing reagents it is easily oxidised.
The `D^(1)` configuration is very unstable in ions.