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How many geometrical isomers are possibl...

How many geometrical isomers are possible in the following co-ordination entities?
`[Co(NH_3)_3Cl_3]`.

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JMD PUBLICATION-CO-ORDINATION COMPOUNDS-EXAMPLE
  1. Why is geometrical isomerism not possible in tetrahedral compounds hav...

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  2. How many geometrical isomers are possible in the following co-ordinati...

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  3. How many geometrical isomers are possible in the following co-ordinati...

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  4. Discuss the main postulates of valence bond theory.

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  5. What are inner and outer orbital complexes ?

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  6. Explain magnetic Behaviour of [Fe(CN)6]^(4-) and [Fe(CN)6]^(3-) anions...

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  7. Onthe basis of valencebondtheory explain the structure andmagnetic nat...

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  8. How does valence bond theory account for: [Ni (CO)4]^-2 is diamagnetic...

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  9. How does valence bond theory account for: [Ni (Cl4)]^(2-) is diamagnet...

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  10. Using valence bond theory of complexes, explain the geometry and diama...

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  11. Discuss structure of [Co(NH3)6]^(3+) ion the basis of V.B.T.

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  12. Onthe basis of valence bond theory explain the structure and magnetic ...

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  13. [Fe(CN)6 ]^-3 is low spin complex but [Fe(H2O)6]+3is high spin complex...

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  14. Explain [Co(NH3)6]^(3+) is an inner orbital complex whereas [Ni(NH3)6]...

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  15. [NiCl4]^(2-) is paramagnetic while [Ni(CO)4] is diamagnetic through bo...

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  16. A solution of [Ni(H2O)6]^(2+) is green but a solution of [Ni(CN)4]^(2-...

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  17. [Fe(CN)6)]^(4-) and [Fe(H2O)6)]^(2+) are of different colours in di...

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  18. Explain: [Ni (CN)4]^(2-) is diamagnetic while [Ni(Cl)4]^(2-) is parama...

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  19. Explain : [Co(CN)6]^(3-) is diamagnetic while [CoF6]^(3-) is paramagne...

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  20. [Ti (H2O)6]^(3+) is coloured while [Sc(H2O)6]^(3+) is colourless. Expl...

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