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Using the valence bond approach, deduce ...

Using the valence bond approach, deduce the shape and magnetic character of
(i) `[Cr(CO)_(6)]` [At. No. of Cr = 24] (ii) `[Fe(CN)_(6)]^(3-)` (At. No. of Fe = 26)

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PRADEEP-CORDINATION COMPOUNDS-Short Answer Questions
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  2. Consider the coordination compound, [Co(NH(3))(5)SO(4)]Br (i) Write ...

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  3. Using the valence bond approach, deduce the shape and magnetic charact...

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  4. On the basis of valence bond theory, account for the hybridisation, sh...

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  5. Write the name, stereochemistry and magnetic behaviour of the followin...

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  6. Give an example of each of the following : (i) Outer orbital octahed...

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  7. Compare the magnetic behaviour of the complex entities [Fe(CN)(6)]^(4-...

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  8. Explain how two complexes of nickel, [Ni(CN)4]^(2-) and Ni(CO)4 have d...

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  9. Using valence bond theory , explain the geometry and magnetic behaviou...

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  10. With the help of VBT, explain the hybridisation in tetracarbonyl nicke...

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  11. Discuss the formation, structure and magnetic behaviour of hexafluoroc...

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  12. Write the name, the state of hybridization, the shape and the magnetic...

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  13. (a) For the complex [Fe(CN)(6)]^(3-) , write the hybridisation type, m...

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  14. Explain on the basis of valence bond theory that [Ni(CN)(4)]^(2-) ion ...

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  15. Discuss the nature of bonding in the following coordination entities o...

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  16. Discuss the geometry of [Cr(NH(3))(6)]^(3+) ion by using V.B.T. and su...

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  17. How does crystal field theory explain. (i) High spin and low spin st...

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  18. The magnitude of crystal field stabilisation energy in octaheral field...

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  19. (a) What is the basic of formation of the spectrochemical series? (b...

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  20. a) Give the electronic configuration of the d-orbitals of Ti in [Ti(H(...

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