Q45E
Question
Nitrogen in the atmosphere exists as very stable diatomic molecules. Why does phosphorus form less stable \({{\bf{P}}_4}\)molecules instead of \({{\bf{P}}_2}\)molecules?
Step-by-Step Solution
Verified Answer
Phosphorus atoms have an empty d orbital, which makes it a larger atom and unable to form multiple bonds with other phosphorous atoms.
1Step 1: Electronic configuration
The distribution of electrons in an element's orbitals is described by its electron configuration. They are represented by a standard memorandum that arranges all electron-containing subshells in a logical order.
2Step 2: Reasons why phosphorus forms a less stable\({{\bf{P}}_4}\) molecules
- Due to the electronic configuration, phosphorus atom ha an empty d orbital, which makes it a larger atom and unable to form multiple bonds with other phosphorous atoms.
- Nitrogen atom doesn't have a d orbital and as such can make pibonds, which can form multiple bonds with the same element.
- Nitrogen atom has the ability to create \(\pi - \pi \)multiple bonds. Due to the repulsion between the non-bonded electrons in the inner core, phosphorus cannot form such bonds.
- There is no such repulsion in nitrogen atom since it possesses only \(1s\) electron in its inner shell, making the overlap of p orbitals to create pi-bonds simply.
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