2. Design a synthetic route for the following conversion of methylcylohexane into compound A using retrosynthesis...
2. Design a synthetic route for the following conversion of methylcylohexane into compound A using retrosynthesis analysis. You may use any other reagents that you need. (1pt) 3. Predict which of the following two compounds will undergo an E2 reaction more rapidly in presence of EtON/EtOH. Draw the reaction product(s) and the mechanism for the faster reaction using the correct chair conformation for the substrate (starting material). (1 pt)
Retrosynthesis. Propose the most efficient synthetic route to make the following compound starting from the indicated reagents and any other reagents, clearly identifying the reaction conditions at each step and the structure of the intermediates formed. "Note: This will require more than 3 steps BrMg
yeah Retrosynthesis. Propose the most efficient synthetic route to make the following compound starting from the indicated reagents and any other reagents, clearly identifying the reaction conditions at each step and the structure of the intermediates formed. *Note: This will require more than 3 steps HH BrMg
Retrosynthesis. Propose the most efficient synthetic route to make the following compound starting from the indicated reagents and any other reagents, clearly identifying the reaction conditions at each step and the structure of the Intermediates formed. *Note: This will require more than 3 steps BIO o 3 by BrMg
12. Design a synthetic route for the following compound free of other isomers. You do not need to write mechanisms. Assume you have access to benzene, isopropyl alcohol, acetyl chloride, and any inorganic reagents (10 points).
1. Draw the line structures and arrange the following substrates in order of increasing SN2 reactivity with NaCN: Bromoethane, 1-chloro-3,3-dimethylpentane, 1-chloro-2,2-dimethylpentane, and 2-bromo-2- methylpentane. (1 pt) 2. Design a synthetic route for the following conversion of methylcylohexane into compound A using retrosynthesis analysis. You may use any other reagents that you need. (1 pt) 3. Predict which of the following two compounds will undergo an E2 reaction more rapidly in presence of EtONa/EtOH. Draw the reaction product(s) and the mechanism...
PROBLEM o Using retro-synthesis or synthetic design propose a route for the following conversion. dando o Draw all the forward reactions to complete the work (synthesis); o Starting with 1-pentyne synthesize 1,1-dichloro-cis-2,3- dipropylcyclopane using any alkyl iodide and any other necessary inorganic or organic reagents. I-penye
Provide a synthetic route for the following compound from benzene and any other necessary organic and inorganic reagents. List the required reagents and conditions for each step and draw the product for each step 14. Provide a synthetic route for the following compound from benzene and any other necessary organic and inorganic reagents. List the required reagents and conditions for each step and draw the product for each step. (4 pts) 0-V
Propose the most efficient synthetic route to make the following compound starting from the indicated reagents and any other reagents, clearly identifying the reaction conditions at each step and the structure of the intermediates formed. Propose the most efficient synthetic route to make the following compound starting from the indicated reagents and any other reagents, clearly identifying the reaction conditions at each step and the structure of the intermediates formed. *Note: This will require more than 3 steps* ohin 3...
alon 4) Design a synthetic route that would form the following ketone using Acetoacetic Ester or Malonic Ester Synthesis. You can utilize any aldehyde, ketone, ester alkyl halide, acid, base, and any additional inorganic reagent or solvent needed. Remember to be specific with your choice of reagents and cond itions. Draw out each synthetic step with the reagent(s) needed for performing that step. (20 Pts) Sorry this ir all Over the plau... ( tricd to draN Prth но