5 Must Know Facts For Your Next Test

1. The addition of HBr to ethylene is an example of a polar reaction, where the hydrogen atom of HBr adds to one carbon of the double bond, and the bromine atom adds to the other carbon.
2. Markovnikov's rule states that in an electrophilic addition reaction, the electrophile (in this case, the hydrogen from HBr) will add to the carbon that can best stabilize the resulting carbocation.
3. HBr can be used to prepare alkyl halides from alcohols, where the hydroxyl group is replaced by a bromine atom.
4. In electrophilic additions to conjugated dienes, HBr can add to form an allylic carbocation intermediate, which is more stable than other carbocations due to delocalization of the positive charge.
5. The strength of HBr as an acid is due to the high electronegativity of bromine, which allows it to readily accept a proton and form the hydronium ion (H3O+).

Review Questions

• Explain the mechanism of the addition of HBr to ethylene, and how it is an example of a polar reaction.
  • The addition of HBr to ethylene is an example of a polar reaction, where the hydrogen atom of HBr adds to one carbon of the double bond, and the bromine atom adds to the other carbon. This occurs through a two-step mechanism: first, the hydrogen atom of HBr is added to one carbon, forming a carbocation intermediate. Then, the bromine atom adds to the other carbon, forming the final product of bromoethane. This reaction is polar because the hydrogen and bromine atoms have different electronegativities, resulting in a partial positive charge on the hydrogen and a partial negative charge on the bromine.
• Describe how Markovnikov's rule applies to the orientation of the addition of HBr to alkenes, and explain the reasoning behind this rule.
  • Markovnikov's rule states that in an electrophilic addition reaction, the electrophile (in this case, the hydrogen from HBr) will add to the carbon that can best stabilize the resulting carbocation. This is because the more stable the carbocation intermediate, the more favorable the reaction will be. When HBr adds to an alkene, the hydrogen atom adds to the carbon that can best stabilize the positive charge, typically the more substituted carbon. This is because more substituted carbocations are more stable due to the inductive effect of the alkyl groups, which can better delocalize the positive charge.
• Explain how HBr can be used to prepare alkyl halides from alcohols, and discuss the importance of this reaction in organic synthesis.
  • HBr can be used to prepare alkyl halides from alcohols in a substitution reaction, where the hydroxyl group (-OH) is replaced by a bromine atom. This is an important reaction in organic synthesis because alkyl halides are versatile intermediates that can undergo a variety of other reactions, such as nucleophilic substitutions, eliminations, and organometallic reactions. The use of HBr in this reaction is advantageous because the bromine atom is a good leaving group, facilitating the substitution process. Additionally, the strong acidity of HBr helps to activate the alcohol, making the substitution more favorable. This reaction is widely used in the synthesis of a variety of organic compounds, including pharmaceuticals, agrochemicals, and other important materials.

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