It is to be explained why NaOC(CH 3 ) 3 is used instead of NaOH to deprotonate alkyl-substituted diethyl malonate. Concept introduction: The proton of the − CH 2 − group situated between the two carbonyl groups of diethyl malonate is relatively acidic due to the presence of the two electron-withdrawing carbonyl groups. A strong base such as the hydroxide ion − OH - can extract this proton. The ease of this deprotonation also depends on the presence of a substituent on this carbon. An alkyl substituent reduces the acidity of this proton because the electron-donating character of an alkyl substituent reduces the electron-withdrawing effect of the carbonyl groups.

Question

Arrange the following molecules in increasing order of acidity. Base it only on their structural differences and explain how it is so. 1. HF, CH3CH2CH2OH, CH3CH2COOH 2. Ethyl amine, Ethanol, Propane

Answer 1

Question

Chapter 6, Problem 6.75P

Interpretation Introduction

Interpretation:

It is to be explained why NaOC(CH3)3 is used instead of NaOH to deprotonate alkyl-substituted diethyl malonate.

Concept introduction:

The proton of the −CH2− group situated between the two carbonyl groups of diethyl malonate is relatively acidic due to the presence of the two electron-withdrawing carbonyl groups. A strong base such as the hydroxide ion −OH- can extract this proton.

The ease of this deprotonation also depends on the presence of a substituent on this carbon. An alkyl substituent reduces the acidity of this proton because the electron-donating character of an alkyl substituent reduces the electron-withdrawing effect of the carbonyl groups.

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