List the systematic name and common name for each of the following compounds: (a) Cl (b) Br (c) (d) Br (e) Cl
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Textbook Solutions for Organic Chemistry
Question
Halogenated derivatives of toluene will undergo hydrolysis via an SN1 process: Z X Y The rate of hydrolysis is dependent on two main factors: (1) the stability of the leaving group and (2) the stability of the intermediate carbocation. The following are rates of hydrolysis ( 104 ?min) for halogenated derivatives of toluene at 30 C in 50% aqueous acetone (J. Am. Chem. Soc. 1951, 73, 2223): Z = H Z = Cl Z = Br X = H, Y = Cl 0.22 2.21 31.1 X = Cl, Y = Cl 2.21 110.5 2122 X = Br, Y = Br 6.85 1803 1131 Using these data, answer the following questions: (a) Using Figure 7.28, determine whether chloride or bromide is the better leaving group and explain your choice. Then, determine whether the hydrolysis data support your choice. Explain. (b) Determine whether a carbocation is stabilized by an adjacent chloro group (i.e., a chlorine atom attached directly to C+). Justify your choice by drawing resonance structures for the carbocation. (c) Determine whether a carbocation is stabilized by an adjacent bromo group (i.e., a bromine atom attached directly to C+). Justify your choice by drawing resonance structures for the carbocation. (d) Determine whether a carbocation is more greatly stabilized by an adjacent chloro group or an adjacent bromo group. (e) For these hydrolysis reactions, determine which factor is more important in determining the rate of hydrolysis: the stability of the leaving group or the stability of the carbocation. Explain your choice.
Solution
The first step in solving 7 problem number 47 trying to solve the problem we have to refer to the textbook question: Halogenated derivatives of toluene will undergo hydrolysis via an SN1 process: Z X Y The rate of hydrolysis is dependent on two main factors: (1) the stability of the leaving group and (2) the stability of the intermediate carbocation. The following are rates of hydrolysis ( 104 ?min) for halogenated derivatives of toluene at 30 C in 50% aqueous acetone (J. Am. Chem. Soc. 1951, 73, 2223): Z = H Z = Cl Z = Br X = H, Y = Cl 0.22 2.21 31.1 X = Cl, Y = Cl 2.21 110.5 2122 X = Br, Y = Br 6.85 1803 1131 Using these data, answer the following questions: (a) Using Figure 7.28, determine whether chloride or bromide is the better leaving group and explain your choice. Then, determine whether the hydrolysis data support your choice. Explain. (b) Determine whether a carbocation is stabilized by an adjacent chloro group (i.e., a chlorine atom attached directly to C+). Justify your choice by drawing resonance structures for the carbocation. (c) Determine whether a carbocation is stabilized by an adjacent bromo group (i.e., a bromine atom attached directly to C+). Justify your choice by drawing resonance structures for the carbocation. (d) Determine whether a carbocation is more greatly stabilized by an adjacent chloro group or an adjacent bromo group. (e) For these hydrolysis reactions, determine which factor is more important in determining the rate of hydrolysis: the stability of the leaving group or the stability of the carbocation. Explain your choice.
From the textbook chapter Substitution Reactions you will find a few key concepts needed to solve this.
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