Welcome to the article A 1 benzylic radical is more stable than a 1 aliphatic radical because resonance can occur with a benzylic radical Resonance allows for electrons to. On this page, you will learn the essential and logical steps to better understand the topic being discussed. We hope the information provided helps you gain valuable insights and is easy to follow. Let’s begin the discussion!
Answer :
Final answer:
A 1° benzylic radical is indeed more stable than a 1° aliphatic radical due to the delocalization of electrons provided by resonance, which stabilizes the molecule.
Explanation:
The statement that a 1° benzylic radical is more stable than a 1° aliphatic radical due to resonance is true. The delocalization of electrons in molecules with resonance forms, such as benzene, provides additional stability known as resonance stabilization.
Benzene, for instance, has two resonance forms and the pi bonding electrons can move throughout the ring, sharing their electron density over the entire molecule rather than being confined to a single bond. This delocalization lowers the molecule's potential energy, which is why the benzylic radical is more stable than its aliphatic counterpart.
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Rewritten by : Brahmana