Explain the geometry and magnetic nature of the following complex ions on the basis nof valence bond theory `(Cr(NH_(3))_(6)]^(3+)` (ii) `[Fe(CN)_(6))]^(4)` (iii) `[FeF_(5)]^(3-)` (iv) `[MnCl_(4))]^(2)` (V) `[Mncl(4)]^(2-)` (vi) `[Cu(NH_(3)_(4)]^(2)`
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Discuss the nature of bonding in the following co-ordination complexes on the basis of valence bond theory : (a) [Fe(CN)_(6)]^(4-) (b) [FeF_(6)]^(3-) (c) [Co(C_(2)O_(4))_(3)]^(3-) (d) [CoF_(6)]^(3-)
Discuss the nature of bonding in the following coordination entities on the basis of valence bond theory: (i). [Fe(CN)_6]^(4-) (ii). [FeF_6]^(3-) (iii). [Co(C_2O_4)_3]^(3-) (iv). [CoF_6]^(3-)
Discuss the geometry of the complex [Fe(CN)_6]^(3-) on the basis of valence bond theory.
Give the electronic configuration of the following complexes on the basis of crystal field splitting theory. [CoF_(6)]^(3-), [Fe(CN)_(6)]^(4-) and [Cu(NH_(3))_(6)]^(2+) .
Write the state of hybridization, the shape and the magnetic behaviour of the following complex entities: (i) [Cr(NH_(3))_(4) Cl_(2)]Cl (ii) [Co Fe_(6)]^(3-) (iii) K_(2)[Ni(CH)_(4)]
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