What is spectrochemical series? Explain the difference betwe

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 Multiple Choice QuestionsShort Answer Type

171. Draw all the isomers (geometrical and optical) of
[Co(NH3)Cl(en)2 ]2+ 
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172. Draw all the isomers (geometrical and optical) of
[Co(NH3)2Cl2(en)]+
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173. Write all the geometrical isomers of[Pt(NH3)(Br)Cl(py)] and how many of these will exhibit optical isomers? 
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174. Aqueous copper sulphate solution (blue in colour) gives:
(i) a green precipitate with aqueous potassium fluoride and
(ii) a bright green solution with aqueous potassium chloride. Explain these experimental results.
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175. What is the coordination entity formed when excess of aqueous KCN is added to an aqueous solution of copper sulphate? Why is it that no precipitate of copper sulphide is obtained when H2S(g) is passed through this solution?  
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176.

Draw figure to show splitting of d orbitals in an octahedral crystal field.

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177.

What is spectrochemical series? Explain the difference between a weak field ligand and a strong field ligand.


Spectro-chemical series is a series in which the ligands have been arranged in order of increasing magnitude of splitting they produce. The order is 

I– < Br < SCN < Cl < S2– < F < OH < C2O42– < H2O < NCS< edta4– < NH3 < en < CN < CO

The ligand present on the R.H.S of the series are strong field ligand  while L.H.S are weak field ligand. Also, strong field ligand cause higher splitting in the d- orbitals than weak field ligand .


Weak field ligand

Strong field ligand

 1.They are formed when the crystal field stabilisation energy (Δ0) in octahedral complexes is less than the energy required for an electron pairing in a single orbital (p).

 

1.    They are formed when the crystal field stabilisation energy (Δ0) is greater than the p.

 

2.    They are also called high spin complexes.

 

2.    They are called low spin complexes.

 

3.    They are mostly paramagnetic in nature complex.

 

3.    They are mostly diamagnetic or less paramagnetic than weak field.

 

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178. Discuss the nature of bonding in the following coordination entities on the basis of valence bond theory. 
 [Fe(CN)6]4–  
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179. Discuss the nature of bonding in the following coordination entities on the basis of valence bond theory. 
[FeF6]3–
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180. Discuss the nature of bonding in the following coordination entities on the basis of valence bond theory. 
 [CoF6]3–
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