And the resonance structures are
Thanks I hope u like this answer.
5. (15 pt) a. Complete the following reaction. b. Draw a complete mechanism (include resonance structures)....
Draw the major product and write the complete mechanism for the following reaction. Show resonance structures that lead to the formation of the major product.
Draw the mechanism for the following transformation. Include all
relevant resonance structures. Show the movement of electrons with
arrows.
Draw the mechanism for the following transformation. Include all relevant resonance structures. Show the movement of electrons with arrows. (14 points) Pro excess HBr Br
Draw the mechanism of the following reaction. Be sure to show all curved arrows and formal charges. (Show the formation of the electrophile and all resonance structures of the sigma complex). o to AICI: Does the substituent on the following benzene activate or deactivate the ring for EAS reactions? Explain your answer this should include drawing any relevant resonance structures!) NH Predict the major product of the following reaction. Explain the directing effects of the -OH group (this should include...
4. (5 pts) Draw a complete, step by step mechanism to account for the formation of following product. Draw all the resonance structures of the intermediate and indicate which one is the major resonance contributor. осна OCH3 Br2 FeBr3
15. (25 pt) Draw a mechanism for the below. In theory, the molecule in the box could be formed but does not. Explain why not. Finally, draw any resonance structures that exist. H+ heat
Draw a detail arrow pushing mechanism for the following reaction. Also show the resonance structures of the intermediate whenever appropriate. HNO3/H2SO4 NO2 b)
3. (18 pt) Provide a detailed arrow-pushine mechanism for the following reaction. Don't forget resonance structures when applicable. b. The reaction above gives only ortho product. Give two reasons why the para product doesn't form.
Draw a detail arrow pushing mechanism for the following reaction. Also show the resonance structures of the intermediate whenever appropriate. -OH 50% H2SO4 Heat OR
Draw a complete mechanism (including resonance structures) for the monobromination of toluene using Br_2 and FeBr_s. Assume the product has a para relationship between the bremo-and methyl-groups.
1) Draw the mechanism for the radical reaction below, including potential resonance structures that explain the product distribution. Draw ALL potential products. Assume only one chlorine is attached to each product. CI 5) Draw both potential products for the reaction below. Indicate the orientation of the groups within the products in the final compounds. 6) Draw the major product for the reaction below. In 10 words or less, explain your answer. OH Excess Br-Br HO