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17: Carboxylic Acids and their Derivatives

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    • 17.1: Carboxylic Acids and Their Derivatives- Properties and Names
    • 17.2: Acidity of Carboxylic Acids
      This page discusses the acidity of carboxylic acids, emphasizing their ionization and reactions with strong bases. It explains that carboxylic acids are weak acids that dissociate partially, with their acidity measured by \(K_a\) and \(pK_a\) values. The page details neutralization reactions with bases, resulting in salts and water, and highlights the role of certain organic salts as food preservatives by inhibiting bacterial and fungal spoilage.
    • 17.3: Reactions of Carboxylic Acids - Ester and Amide Formation
      This page discusses the formation of esters and amides from carboxylic acids through reactions with alcohols and amines, detailing esterification and condensation polymerization for polyesters like PET. It explains how amides form from carboxylic acids and ammonia or amines, mentioning that tertiary amines do not create amides. Additionally, the page covers polyamides, such as nylons, emphasizing their significance in various industrial applications.
    • 17.4: Hydrolysis of Esters and Amides
      This page explains ester hydrolysis in both acidic and basic conditions, detailing the products formed in each process. It also touches on amide hydrolysis, which needs an acid or base. Furthermore, it emphasizes the significance of this chemical knowledge for athletic trainers in managing athlete health, understanding pharmacology, and overseeing nutrition.
    • 17.5: Polyamides and Polyesters
      This page provides an overview of the formation and applications of condensation polymers, specifically polyamides like nylon-66 and polyesters such as PET. It explains how these polymers form from monomers with two functional groups and emphasizes their widespread use in products including textiles and packaging.
    • 17.6: Phosphoric Acid Derivatives
      This page discusses inorganic acids such as nitric, sulfuric, and phosphoric acids, highlighting their ability to form esters, particularly phosphate esters. These esters are crucial in biochemistry, especially in energy transformation via ATP, which provides energy for cellular processes through hydrolysis. Furthermore, phosphate esters are important in the structure of phospholipids and nucleic acids.

    17: Carboxylic Acids and their Derivatives is shared under a CC BY-NC-SA 3.0 license and was authored, remixed, and/or curated by LibreTexts.