Which of the following reaction conditions would lead to the generation of radicals (i.e. an initiation step)? A) Br₂/heat or Cl/hv B) Cl₂ or HCI C) Cl/heat or HCI/hv D) Br₂/heat or Cl₂ E) HCI or HBr

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**Identify the Most Stable Radical Structure** This diagram features four different aromatic radical structures labeled I, II, III, and IV. Each structure consists of a benzene ring with a single radical (unpaired electron) denoted by a dot. - **Structure I**: The radical is positioned on the carbon adjacent to the benzene ring. - **Structure II**: The radical is placed on a carbon atom two positions away from the benzene attachment point. - **Structure III**: The radical is located on carbon in the meta position relative to the benzene ring attachment. - **Structure IV**: The radical is on the para position relative to the benzene ring connection. To the right, there are four multiple-choice options provided: - A) I - B) II - C) III - D) IV Learners are asked to identify which of these structures is the most stable radical structure. This involves understanding the principles of resonance and electron delocalization within aromatic compounds.

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**Question:** Which of the following reaction conditions would lead to the generation of radicals (i.e. an initiation step)? **Options:** A) Br₂/heat or Cl₂/hν B) Cl₂ or HCl C) Cl₂/heat or HCl/hν D) Br₂/heat or Cl₂ E) HCl or HBr **Explanation:** The question lists various chemical conditions to determine which will likely lead to radical formation. Radicals are typically generated through the homolytic cleavage of bonds, often initiated by heat (Δ) or light (hν), especially with halogens like Cl₂ or Br₂.