Give a detailed mechanism including all resonance isomers for intermediates (show electron flow) for the Friedel-Crafts reaction done in the lab. NOTE: It is likely the mechanism from reactants to only 1-t-butyl-2,5-dimethoxybenzene is on the blackboard in class. I want a complete mechanism showing all steps and resonance isomers for the synthesis of the dialkylated product!
Give a detailed mechanism including all resonance isomers for intermediates (show electron flow) for the Friedel-Crafts...
Give a detailed mechanism for the reaction below. using the curved arrows to show electron flow. you must include all the intermediates and all charges. access HB
CREATINE SYNTHESIS ORGANIC CHEMISTRY LAB REPORT ***introduction questions**** 5: Give a detailed mechanism (show electron flow) for the synthesis of creatine from cyanamide and sarcosine.
Provide a reasonable yet detailed mechanism for BOTH of the following transformations. Show all key resonance structures for the intermediates generated. at worden dan on no [2 x 7 marks] Propose a practical synthesis for the compounds shown from benzene. Use any other necessary organic or inorganic reagents. Show all intermediates formed to receive full credit. Assume any isomers formed can easily be separated. COOH [9 marks]
Notes: A ‘detailed’ mechanism should illustrate all intermediates, by-products, and electron-pushing arrows. The marking scheme is given for each question as a guide; It is subject to minor changes. In class, we learned how to sulfonate aromatic rings by treating them with SO3 and H2SO4. This reaction is reversible. Propose a detailed mechanism for this reverse reaction. Note, catalysts are reactants that are regenerated at the end of a reaction sequence.
5. Mechanism: (20 pts) Show the detailed reaction mechanism including all relevant arrows, intermediates, inorganic products, relevant resonance structures, and stereochemistry for the following reaction heat OH H-Br Step 1 step 2 Step 3 Step 4 Product(s) a. This is a Sx2/S1/E/Ez/ reduction / oxidation mechanism. b. What is the product if the starting alcohol is reacted with PBry? Product(s) with PBry c. Reaction with PBr; is a S2/S1/E/Ez/reduction / oxidation mechanism.
5. Mechanism: (20 pts) Show the detailed reaction mechanism including all relevant arrows, intermediates, inorganic products, relevant resonance structures, and stereochemistry for the following reaction. heat OH H-Br step 1 step 2 step 3 step 4 Product(s) a. This is a S2/Sx1/E/E2/ reduction / oxidation mechanism. b. What is the product if the starting alcohol is reacted with PBrz? Product(s) with PBrz c. Reaction with PBr3 is a S2/S1/Ej / E2 / reduction / oxidation mechanism.
Write detailed, reaction mechanism of guaifensin synthesis. Must include arrows, electron flow and lone pairs. 100 Pre-lab preparation BREE In your lab notebook, prepare the following (see lab notebook guide for details): Jl. Write all procedures required for this experiment. Prepare it so that it can be used as a sole source of your experimental procedures 2. In your notebook, draw structures of both enantiomers of 3-chloro-1.2-propanediol 3. In few sentences summarize main factors that have influence on Sw2 type...
Provide a full mechanism for the synthesis of 3-acetyl-7-(diethylamino)-2H-1-benzopyran-2-one. Include all formal charges, resonance structures, intermediates and products. Use proper arrows for electron flow, vaguely drawn arrows will not receive marks.
Provide a detailed mechanism including curved arrows showing including curved arrows showing electron flow, intermediate structures, formal charges, and reaction arrows. Be su Charges, and reaction arrows. Be sure to show all relevant bonds. Then, answer the associated question. (8 points) Me Me Me Me I TOU VYY 1. NaOH, H2O 2. H2O, HCI Mon ATMe Melanie OH CO2H Mé meste amooodsam slupent This reaction is often in competition with the Aldol processes. Why is this ring contraction favored over...
1) Provide a detailed electron pushing mechanism for the below transformation. Show ALL relevant resonance structures to help explain why the para product is the major organic product. (Note: your electron pushing mechanism should include formation of the electrophile) (4 points) Cl AICl3