4. Reactions Provide the major products for the reactions. Include stereochemistry where relevant where no reaction occurs, following write NR. Brz 1. CH₃ Li 2. HLI
Draw ALL the possible combinations of the organic products for
this reaction. Include stereochemistry and regiospecificity where
appropriate (dashes and wedges). Explain answer.
Pt CH3(CH2)3C=CH + 2D2
4. Draw the products of the complete oxidation of 1-hexanol. (Name any product you knogw to.) 5. Draw the reaction of 3-heptanone with excess 1-propanol in the presence of acid.
When 2-methyl-3-hexene is treated with Cl2 in methanol, three products are formed (neglecting stereoisomers). Draw curved arrows to show the movement of electrons in this step of the reaction mechanism.
Why can we not use water as a solvent for the reaction of cyclopentadiene and maleic anhydride? Is it possible to convert between the two products without using the corresponding precursor ( ethyl acetate) ? How?
Question 18 (1 point) How would you correctly characterize the reaction shown in the diagram with the information given? Ener Reactants Products endothermic exergonic Оооо exothermic endergonic
Draw the products of the reaction of 4-hepten-3-one with the following: A: 4-hepten-3-one + (CH3CH2CH2)2CuLi, followed by ethanol -> B: 4-hepten-3-one + diethylamine ->
Show example reactions of reduction/oxidation, elimination/addition, and an aldol reaction. Show the reactants, products, and any reagents necessary to complete the reactions. You do not need to show mechanisms.
what is the product of the aldol condensation between cyclohexanone and 4-methylbenzaldehyde? show the mechanism for this condensation. is it possible for this reaction to form alternative products? how do you know whether it can or not?
What products are formed from the reaction of Cl2(g) with I–(aq)? Select one: a. ICl b. ICl2 c. ICl3 d. I2 and Cl– e. I and Cl2–