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When degenerate d-orbitals of an isolate...

When degenerate d-orbitals of an isolated atom/ion come under influence of magnetic field of ligands, the degeneray is lost. The two set `t_(2g)(d_(xy),d_(yz),d_(xz)) and e_(g) (d_(x^(2))-d_(x^(2)-y^(2))` are either stabilized or destabilized depending upon the nature of magnetic field. it can be expressed diagrammatically as:

Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for tetrahedral complexes, `Delta` is about 4/9 times to `Delta_(0)` (CFSE for octahedral complex). this energy lies in visible region and i.e., why electronic transition are responsible for colour. such transition are not possible with `d^(0) and d^(10)` configuration.
Q. `Ti^(3+)(aq)`. is purple while `Ti^(4+)(aq)`. is colourless because:

A

there is not crystal field effec in `Ti^(4+)`

B

The energy difference between `t_(2g) and e_(g) Ti^(4+)` is quite high and does not fall in the visible region

C

`Ti^(4+)` has `d^(0)` configuration

D

`Ti^(4+)` is very small in comparison to `Ti^(3+)` and hence does not absorb any radiation

Text Solution

Verified by Experts

The correct Answer is:
C
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  2. When degenerate d-orbitals of an isolated atom/ion come under influenc...

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  3. When degenerate d-orbitals of an isolated atom/ion come under influenc...

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  4. When degenerate d-orbitals of an isolated atom/ion come under influenc...

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  5. When degenerate d-orbitals of an isolated atom/ion come under influenc...

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  6. Magnetic moment, ionic conductance and colligative properties are usef...

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  7. Magnetic moment, ionic conductance and colligative properties are usef...

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  8. Magnetic moment, ionic conductance and colligative properties are usef...

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  9. The crystal field theory assumes interaction between metal ion and the...

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  11. The crystal field theory assumes interaction between metal ion and the...

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  12. The magnetic property, dipole moment, plane of symmetry, colour and ab...

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  13. The magnetic property, dipole moment, plane of symmetry, colour and ab...

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  14. The magnetic property, dipole moment, plane of symmetry, colour and ab...

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  15. Ligands are broadly classified into two classes classical and non-clas...

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  16. Ligands are broadly classified into two classes classical and non-clas...

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  17. Ligands are broadly classified into two classes classical and non-clas...

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  18. An isomerr of the complex CoBrCl(2)(en)(2)(H(2)O), on reaction with co...

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