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Chapter 4: Q-4-58P (page 236)

Iodination of alkanes using iodine (I2)is usually an unfavorable reaction. (See problem 4-17, for example). Tetraiodomethane (Cl4) can be used as the iodine source for iodination in the presence of a free-radical initiator such as hydrogen peroxide. Propose a mechanism (involving mildly exothermic propagation steps) for the following proposed reaction. Calculate the value of Δ±áfor each of the steps in your proposed mechanism.

The following bond-dissociation energies may be helpful:

Short Answer

Expert verified

Initiation steps

Propagation steps

Proposed Mechanism

Step by step solution

01

Free radicals

An atom or group of atoms containing odd or unpaired electron is known as the free radical. The unpaired electron is represented by a single unpaired dot in the formula. Free radicals are electrically neutral. They are highly reactive species formed by homolytic fission of a covalent bond.

02

 Step 2: Steps involved in free radical chain reaction

In a free-radical chain reaction, free radicals are generally created in the initiation steps. A free radical and a reactant is combined to yield a product and another free radical in the propagation steps. Lastly, the number of free radicals generally decrease in the termination steps.

03

Bond dissociation enthalpy (BDE)

It may be defined as the amount of enthalpy required to break a bond homolytically in such a way that each bonded atom retains one of the bond’s two electrons.

Mathematically, Δ±á0= Σ(BDE of bonds broken) - Σ(BDE of bonds formed)

04

Mechanism and calculation of ΔH   for each step

The proposed mechanism consists of four parts which are initiation steps, propagation step I and propagation step II.

Initiation steps

Propagation steps

Proposed Mechanism

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Most popular questions from this chapter

When exactly 1 mole of methane is mixed with exactly 1 mole of chlorine and light is shone on the mixture, a chlorination reaction occurs. The products are found to contain substantial amounts of di-, tri-, and tetrachloromethane, as well as unreacted methane.

(a) Explain how a mixture is formed from this stoichiometric mixture of reactants, and propose mechanisms for the formation of these compounds from chloromethane.

(b) How would you run this reaction to get a good conversion of methane toCH3Cl? Of methane to CCl4?

(a) Draw the structure of the transition state for the second propagation step in the chlorination of methane.

Show whether the transition state is product-like or reactant-like and which of the two partial bonds is stronger.

(b) Repeat for the second propagation step in the bromination of methane.

(a) Draw an approximate reaction-energy diagram for the acid-base reaction of phenol (see below) with 1-molar aqueous sodium hydroxide solution.

(b) On the same diagram, draw an approximate reaction-energy diagram for the acid-base reaction oftert- butyl alcohol(see below) with 1-molar aqueous sodium hydroxide solution.

Acetylacetone (pentane -2, 4-dione)reacts with sodium hydroxide to give water and the sodium salt of a carbanion. Write a complete structural formula for the carbanion, and use resonance forms to show the stabilization of the carbanion.

In the presence of a small amount of bromine, cyclohexene undergoes the following light-promoted reaction:

(a) Propose a mechanism for this reaction.

(b) Draw the structure of the rate-limiting transition state.

(c) Use Hammond’s postulate to predict which intermediate most closely resembles this transition state.

(d) Explain why cyclohexene reacts with bromine much faster than cyclohexane, which must be heated to react.
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