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Chapter 16: Q69E (page 524)

p-Bromotoluene reacts with potassium amide to give a mixture of mand p-methylaniline. Explain.

Short Answer

Expert verified

The reaction followed as:

Step by step solution

01

Benzyne formation

When the elimination reaction occur in the substituted aromatic rings the unreactive and the unstableintermediate is formed called benzyne which is attacked by nucleophiles and followed by protonation to form the desired product.

02

Reaction of p-Bromotoluene with potassium amide

When p- bromo toluene which is a substituted benzene react with potassium amide in which hydrogen is protonated by amide followed by Br ion removal benzyne formation takes place as an intermediate and then again ammonia is added to the triple bond of benzyne and the formation of two methylaniline observed.

03

Mechanism

Mechanism followed as:

  1. Abstraction of the proton with the elimination of Br ion
  2. Formation of benzyne intermediate
  3. Addition of ammonia to benzyne

4. Formation of two methylaniline occur

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Most popular questions from this chapter

The following molecular model of a dimethyl-substituted biphenyl represents the lowest-energy conformation of the molecule. Why are the two benzene rings tilted at a 63° angle to each other rather than being in the same plane so that their p orbitals overlap? Why doesn’t complete rotation around the single bond joining the two rings occur?

Melamine, used as a fire retardant and a component of the writing surface of white boards, can be prepared from s-trichlorotriazine through a series of SNAr reactions with ammonia. The first substitution takes place rapidly at room temperature. The second substitution takes place near 100 °C, and the third substitution requires even higher temperature and pressure. Provide an explanation for this reactivity.

Addition of HBr to 1-phenylpropene yields only (1-bromopropyl) benzene. Propose a mechanism for the reaction, and explain why none of the other regioisomer is produced.

Question: You know the mechanism of HBr addition to alkenes, and you know the effects of various substituent groups on aromatic substitution. Use this knowledge to predict which of the following two alkenes reacts faster with HBr. Explain your answer by drawing resonance structures of the carbocation intermediates.

What aromatic products would you obtain from the KMnO4oxidation of the following substances?

a.

b.
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