Which of the following has the most acidic hydrogen?
Which of the following has the most acidic hydrogen?
Hexane -2, 5-dione
Hexane-3-one
Hexane-2,3-dione
Hexane-2,4-dione
The Correct Option is D
Solution and Explanation
To determine which compound among the given options has the most acidic hydrogen, we need to consider the stabilization of the enolate ion formed by deprotonation. The acidity of hydrogen atoms in ketones is influenced by the presence of electron-withdrawing groups and the ability to delocalize the negative charge through resonance.
Hexane-2,5-dione: The enolate ion formed can delocalize the charge between two carbonyl groups, but the positions are at the edges, limiting resonance stabilization.
Hexane-3-one: This compound has only one carbonyl group, offering no additional stabilization from neighboring carbonyl groups.
Hexane-2,3-dione: The proximity of two carbonyl groups allows for resonance, but the stabilization is less efficient than in compounds with a spacing that allows for better overlap.
Hexane-2,4-dione: This compound features two carbonyl groups separated by a single methylene group, allowing for excellent resonance stabilization of the enolate ion. This enhances the acidity of the hydrogen on the carbon between the two carbonyl groups.
Considering these factors, Hexane-2,4-dione has the most acidic hydrogen because the enolate formed is significantly stabilized by resonance involving both adjacent carbonyl groups.
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Concepts Used:
Organic Chemistry – Some Basic Principles and Techniques - Reaction Mechanism
SN1 Reaction Mechanism:
SN1 reaction mechanism takes place by following three steps –
- Formation of carbocation
- Attack of nucleophile
- Deprotonation
SN2 Reaction Mechanism:
The SN2 reaction mechanism involves the nucleophilic substitution reaction of the leaving group (which generally consists of halide groups or other electron-withdrawing groups) with a nucleophile in a given organic compound.
Electrophilic Aromatic Substitution Reaction Mechanism:
The mechanism of an electrophilic aromatic substitution reaction contains three main components which are:
- A new sigma bond from C=C is formed during the reaction in the arene nucleophile.
- Due to the breaking of the C-H sigma bond, a proton is removed.
- The C=C bond is reformed and it restores the aromaticity of the compound.
Electrophilic Substitution Reaction Mechanism:
The electrophilic substitution reaction mechanism is composed of three steps, which will be discussed more below.
- Electrophile Generation
- Carbocation Formation
- Proton Removal