both pcl3 and pcl5 are formed but only ncl3 exists explain why?
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due to Electron repelling group
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Phosphorus has 15 electrons. So its electronic configuration is:
1s^2 2s^2 2p^6 3s^2 3p^3 3d^0
Phosphorus is a period 3 element. Hence it has an empty d-orbital which the period 2 elements do not have.
When phosphorus forms a compound, if there is enough energy available then one electron from one of the orbitals jumps to the vacant d-orbital. This gives phosphorus extra 2 valencies. This is called expanded octet.
As phosphorus initially has valency as 3 it forms PCl3, and due to this expanded octet, PCl5 can also be formed.
*Note that the expanded octet phenomenon can occur only in period 3 elements.
As Nitrogen lies in period 2, it does not have the empty d-orbital and so does not form NCl5
1s^2 2s^2 2p^6 3s^2 3p^3 3d^0
Phosphorus is a period 3 element. Hence it has an empty d-orbital which the period 2 elements do not have.
When phosphorus forms a compound, if there is enough energy available then one electron from one of the orbitals jumps to the vacant d-orbital. This gives phosphorus extra 2 valencies. This is called expanded octet.
As phosphorus initially has valency as 3 it forms PCl3, and due to this expanded octet, PCl5 can also be formed.
*Note that the expanded octet phenomenon can occur only in period 3 elements.
As Nitrogen lies in period 2, it does not have the empty d-orbital and so does not form NCl5
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