Why is geometrical isomerism not possibl...

Why is geometrical isomerism not possible in tetrahedral compounds having two different types of unidentate ligands with the central metal ion ?

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Why is geomefrical isomerism not possible in tetrahedral compounds having two different types of unidentate ligands with the central metal ion ?

List various types of isomerism possible for coordination compounds, giving an example of each.

State and explain with two examples Central metal atom or ion.

Assertion : Linkage isomerism arises in coordination compounds containing ambidentate ligand. Reason : Ambidentate ligand has two different don atoms.

Why do compounds having similar geometry have different magnetic moment ?

Name the type of isomerism when ambidentate ligands are attached to central metal ion. Give two examples of ambidentate ligands.

A spinel is an important class of oxide consisting two types of metal ions with the oxide ions arranged in ccp layers . The normal spinel has one -eight of the tetrahedral holes occupied by one type of metal ions and one- half of the octahedral holes occupied by another type of metal ion. Such a spinel is formed by Mg^(2+), Al^(3+) and O^(2-) . The neutrality of the crystal is being maintained. The formula of the spinel is :

Consider two different hydrogen atoms. The electron in each atom is in an excited state. Is it possible for the electrons to have different energies but the same orbital angular momentum according to the Bohr model?

A spinel is an important class of oxide consisting two types of metal ions withs the oxide ions arranged in ccp layers . The normal spinel has one -eight of the tetrahendral holes occupied by one type of metal ions and one- half of the octaherdral holes occupied by another type of metal ion. Such a spine is formed by Mg^(2+), Al^(3+) and O^(2-) . The netutrality of the crystal is benig maintained. Type of hole occupied by Al^(3+) ions is:

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Write a note on Geometrical isomerism.
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Define optical isomerism. Give one example of optical isomers.
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Why is geometrical isomerism not possible in tetrahedral compounds hav...
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How many geometrical isomers are possible in the following co-ordinati...
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How many geometrical isomers are possible in the following co-ordinati...
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Discuss the main postulates of valence bond theory.
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What are inner and outer orbital complexes ?
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Explain magnetic Behaviour of [Fe(CN)6]^(4-) and [Fe(CN)6]^(3-) anions...
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Onthe basis of valencebondtheory explain the structure andmagnetic nat...
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How does valence bond theory account for: [Ni (CO)4]^-2 is diamagnetic...
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How does valence bond theory account for: [Ni (Cl4)]^(2-) is diamagnet...
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Using valence bond theory of complexes, explain the geometry and diama...
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Discuss structure of [Co(NH3)6]^(3+) ion the basis of V.B.T.
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Onthe basis of valence bond theory explain the structure and magnetic ...
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[Fe(CN)6 ]^-3 is low spin complex but [Fe(H2O)6]+3is high spin complex...
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Explain [Co(NH3)6]^(3+) is an inner orbital complex whereas [Ni(NH3)6]...
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[NiCl4]^(2-) is paramagnetic while [Ni(CO)4] is diamagnetic through bo...
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A solution of [Ni(H2O)6]^(2+) is green but a solution of [Ni(CN)4]^(2-...
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[Fe(CN)6)]^(4-) and [Fe(H2O)6)]^(2+) are of different colours in di...
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Explain: [Ni (CN)4]^(2-) is diamagnetic while [Ni(Cl)4]^(2-) is parama...
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