The major product of this reaction exists as two stereoisomers. Draw both isomers. Show all hydrogen atoms in the structures. Use wedge and dash bonds to indicate the stereochemistry. You can quickly add condensed hydrogens by clicking the More button and using the +H button. Select Draw Rings More Erase H Br H3C-CH2 H Br-Br H2O H3C CH3 (large еxcess) Feedback electrophilie gttack of broming on tbe doule bond rarul in the

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The major product of this reaction exists as two stereoisomers. Draw both isomers. Show all hydrogen atoms in the structures. Use wedge and dash bonds to indicate the stereochemistry. You can quickly add condensed hydrogens by clicking the More button and using the +H button. Select Draw Rings More Erase H Br H3C-CH2 H Br-Br H20 H3C CH3 (large excess) > Feedback First, an electrophilic attack of bromine on the double bond results in the formation of a bromonium ion. Next, a nucleophilic attack of water opens the bromonium ion ring. The product of the reaction is a halohydrin. Consider regiochemistry and stcrcochemistry. 1. Will the intermediate ion be more stable with a positive charge on a tertiary carbon, or on a secondary carbon? 2. Which carbon in the bromonium ring will be attacked by water? 3. In the product, what group is added to the more substituted carbon of the double bond? To the less substituted carbon? Do not forget that you nccd to draw two stcrcoisomcrs of the product. Consider the dircction of brominc attack and later attack by watcr. Check that you have drawn all hydrogens in the structures. Use wedge and dash bonds to indicate the stereochemistry of the isomers.