3. Reaction mechanisms! For each reaction in the multistep synthesis below, draw the arrow- pushing mechanism (unless noted). Make certain to draw the structure of the product of each reaction. For any radical mechanisms, you do NOT need to draw any initiation or termination steps – simply assume the formation of the radical which carries the chain reaction, and draw each propagation step in the mechanism. For EAS reactions, please DO draw the mechanism of the formation of the electrophile from the reactants, including the structure of the electrophile which actually attacks the ring. Continue onto a second page if necessary. 1. `CI • AICI3 2. HNO3, H,SO4 3. Zn/Hg, HCl (Clemmensen reduction -- no mech required) 4. Br2, heat/light 5. NaOEt, E1OH, heat 6. Br2, H2O

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3. Reaction mechanisms! For each reaction in the multistep synthesis below, draw the arrow- pushing mechanism (unless noted). Make certain to draw the structure of the product of each reaction. For any radical mechanisms, you do NOT need to draw any initiation or termination steps – simply assume the formation of the radical which carries the chain reaction, and draw each propagation step in the mechanism. For EAS reactions, please DO draw the mechanism of the formation of the electrophile from the reactants, including the structure of the electrophile which actually attacks the ring. Continue onto a second page if necessary. 1. `CI • AICI3 2. HNO3, H2SO4 3. Zn/Hg, HCl (Clemmensen reduction -- no mech required) 4. Br2, heat/light 5. NaOEt, EtOH, heat 6. Br2, H2O