It forms a stable complex with the substrate.

It reacts too slowly.

It is a strong base and causes acid-base reactions.

It is a weak nucleophile.

It enhances the nucleophilicity of methoxide.

It protects hydroxyl groups from unwanted reactions.

It increases the reaction temperature.

It acts as a catalyst.

By forming a covalent bond with the substrate.

By increasing the acidity of the hydroxyl group.

By replacing the hydroxyl proton with a silicon atom.

By forming a stable complex with the nucleophile.

Sodium borohydride

Hydrochloric acid

Lithium aluminum hydride

Tetrabutyl ammonium fluoride (TBAF)

To increase the electrophilicity of the ketone.

To form an acetal that prevents unwanted reductions.

To enhance the nucleophilicity of the ketone.

To act as a reducing agent.

It makes the ketone more reactive.

It reduces the electrophilicity of the carbonyl carbon.

It increases the acidity of the ketone.

It enhances the nucleophilicity of the ketone.

It increases significantly.

It becomes more acidic.

It remains unchanged.

It decreases significantly.