The number of P–O–P bonds in , and are respectively
- A
- B
- C
- D
The number of P–O–P bonds in , and are respectively
Correct answer:D
Standard Method
Given: The compounds are , and .
Find: The number of P–O–P bonds in each compound.
A P–O–P bond is counted only when an oxygen atom bridges two phosphorus atoms.
For , two tetrahedra are joined by one bridging oxygen atom. Therefore, it contains one P–O–P linkage.
For , the structure is a cyclic ring of three units linked through oxygen atoms. Each linkage between two phosphorus atoms is one P–O–P bond, so the three-membered ring contains three such bonds.
For , the cage structure contains bridging oxygen atoms connecting phosphorus atoms. The total number of such P–O–P linkages is six.
Thus, the required numbers are . Therefore, the correct option is D.
Counting terminal bonds as P–O–P bonds is incorrect because P–O–P requires one oxygen to bridge two phosphorus atoms. Count only bridging oxygens.
In , treating the compound as a linear structure gives the wrong count. It is a cyclic trimer, so the ring contains three P–O–P linkages.
For , ignoring the cage framework leads to undercounting. Separate terminal oxygens from bridging oxygens, then count only the bridging P–O–P connections.
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