(a) Complete the following chemical equation: (i) `Cr_(2)O_(7)^(2-)(aq)+H_(2)S(g)+H^(+)(aq) to` , (ii) `Cu^(2+)(aq)+I^(-)(aq) to` (b) How would you account for the following: (i)The oxidising power of oxoanion are in the order`VO_(2)^(+)ltCr_(2)O_(7)^(2-)ltMnO_(4)^(-)`. (ii) The third ionization enthalpy of manganese `(Z=25)` is exceptionally high. (iii) `Cr^(2+)` is a stronger reducing agent than `Fe^(2+)`. Or (a) Complete the following chemical equation: (i) `MnO_(4)^(-)(aq)+s_(2)O_(3)^(2-)(aq)+H_(2)O(I) to` (ii) `Cr_(2)O_(7)^(2-)(aq)+Fe^(2+)(aq)+H^(+)(aq) to` (b) Explain the following observation: (i) `La^(3+)(Z=57)` and `Lu^(3+)(Z=71)` do not show any colour in solutions. (ii) Among the divalent cation in the first series of transition elements, manganese exhibits the maximum paramagnetism. (iii) `Cu^(+)` ion is not known in aqueous solutions.

(a) Complete the following chemical equation: (i) `Cr_(2)O_(7)^(2-)(aq

1.	(a) Complete the following chemical equation: (i) `Cr_(2)O_(7)^(2-)(aq)+H_(2)S(g)+H^(+)(aq) to` , (ii) `Cu^(2+)(aq)+I^(-)(aq) to` (b) How would you account for the following: (i)The oxidising power of oxoanion are in the order`VO_(2)^(+)ltCr_(2)O_(7)^(2-)ltMnO_(4)^(-)`. (ii) The third ionization enthalpy of manganese `(Z=25)` is exceptionally high. (iii) `Cr^(2+)` is a stronger reducing agent than `Fe^(2+)`. Or (a) Complete the following chemical equation: (i) `MnO_(4)^(-)(aq)+s_(2)O_(3)^(2-)(aq)+H_(2)O(I) to` (ii) `Cr_(2)O_(7)^(2-)(aq)+Fe^(2+)(aq)+H^(+)(aq) to` (b) Explain the following observation: (i) `La^(3+)(Z=57)` and `Lu^(3+)(Z=71)` do not show any colour in solutions. (ii) Among the divalent cation in the first series of transition elements, manganese exhibits the maximum paramagnetism. (iii) `Cu^(+)` ion is not known in aqueous solutions.
Answer» Correct Answer - (a) (i) `Cr_(2)O_(7)^(2-)(aq)+3H_(2)(S)(g)+8H^(+)(aq) to 2Cr^(3+)+3S+7H_(2)O` (ii) `2Cu^(2+)(aq)+2I^(-)(aq) to 2Cu^(+)(aq)+I_(2)(S)` (b) (i) It is because `V` in lower oxidation state is less stable than `Cr` which is less stable than `Mn`. That is why `MrO_(4)^(-)` is best oxidising agent and `VO_(2)^(+)` is least. (ii) ` Mn(25)` has electronic configuration `[Ar]4S^(2) 3d^(5)`,electronic configuration of `Mn^(2+) ` is `[Ar] 4s^(@) 3d^(5)`. After losing `2` electrons, it has half filled d-orbital, which is more stable that is why `Mn^(2+)` has exceptionally high third ionization energy .i.e., the energy required to remove third electrons is very high. (iii) it is because in `Cr^(3+), d^(3)` is more stable in aqueous solution than `Fe^(3+)(d^(5))` i.e., `Cr^(3+)` is more stable than `Fe`. `OR` (a) (i) `8MnO_(4)^(-)(aq)+3S_(2)O_(3)^(2-)(aq)+H_(2)O(I) to 8MnO_(2)(S)+2OH^(-)(aq)+6SO_(4)^(2-)(aq)` (ii `Cr_(2)O_(7)^(2-)(aq)+6Fe^(2+)(aq)14H^(+)(aq) to 2Cr^(3+)(aq)+6Fe^(3+)(aq)+7H_(2)O(I)` (b) (i) it is due to presence of unpaired electrons they cannot undergo f-f transition . (ii) it is because in `Cr^(3+)` gets oxidised to `Cu^(2+)` which is more stable and its hydration energy can overcome second ionsation energy.

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