The correct stability order of the following species/molecules is:

- A
- B
- C
- D
The correct stability order of the following species/molecules is:

Correct answer:A
Standard Method
Given: Species , and are to be compared for stability.
Find: The correct stability order.
The solution identifies stability using aromaticity, anti-aromaticity and resonance.
Hence, the stability order is: Therefore, the correct option is A.
Aromaticity-Based Comparison
Given: The three species/molecules , and shown in the figure.
Find: Their decreasing order of stability.
Key idea: Aromatic compounds are especially stable because of cyclic conjugation and delocalized electrons satisfying Hückel's rule. Anti-aromatic compounds are destabilized, while non-aromatic compounds do not gain special aromatic stabilization.
From the extracted solution:
So the final order is: Thus, the correct answer is A.
Treating as stable only because it is cyclic is incorrect. Cyclic structure alone does not ensure stability; check the -electron count and aromatic character first.
Assuming every conjugated ring is aromatic is wrong. A species must satisfy Hückel's rule and maintain suitable cyclic conjugation; otherwise it may be anti-aromatic or non-aromatic.
Ignoring the role of charge in counting electrons leads to incorrect ordering. Include the electron contribution of the charged center before deciding whether a species is aromatic or anti-aromatic.
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