1 What makes an acid “carboxylic”? 📖
A carboxylic acid contains the functional group –COOH, a carbonyl (C=O) linked to a hydroxyl (–OH) — that’s why it’s called the carboxyl group. These acids can be aliphatic (RCOOH) or aromatic (ArCOOH) depending on whether an alkyl (R-) or aryl (Ar-) group is attached to the carboxyl carbon. Many occur in nature; long-chain members (C12–C18) form the fatty-acid part of natural fats. They’re key starting materials for esters, anhydrides, acid chlorides, amides, and more. :contentReference[oaicite:0]{index=0}
2 Naming made easy 📝
2.1 Common names (everyday chemistry) 😎
- End with
-ic acid. - Often honor the natural source: formic acid (formica = ant), acetic acid (acetum = vinegar), butyric acid (butyrum = butter). :contentReference[oaicite:1]{index=1}
2.2 IUPAC rules (exam-ready) 🎯
- Start with the parent alkane name.
- Replace the ending
-ewith-oic acid.
Example:CH3COOH→ ethane → ethanoic acid. - Number the chain so the carboxyl carbon is 1.
- More than one
-COOH? Add prefixes: dicarboxylic acid, tricarboxylic acid, etc., and show their positions (e.g., benzene-1,2-dicarboxylic acid). :contentReference[oaicite:2]{index=2}
2.3 Quick name bank 🔍
| Structure | Common name | IUPAC name |
|---|---|---|
| HCOOH | Formic acid | Methanoic acid |
| CH3COOH | Acetic acid | Ethanoic acid |
| CH3CH2COOH | Propionic acid | Propanoic acid |
| CH3CH2CH2COOH | Butyric acid | Butanoic acid |
| (CH3)2CHCOOH | Isobutyric acid | 2-Methylpropanoic acid |
| HOOC-COOH | Oxalic acid | Ethanedioic acid |
| HOOC-CH2-COOH | Malonic acid | Propanedioic acid |
| HOOC-(CH2)2-COOH | Succinic acid | Butanedioic acid |
| HOOC-(CH2)3-COOH | Glutaric acid | Pentanedioic acid |
| HOOC-(CH2)4-COOH | Adipic acid | Hexanedioic acid |
| HOOC-CH2-CH(COOH)-CH2-COOH | Tricarballylic acid | Propane-1,2,3-tricarboxylic acid |
| (aromatic) COOH | Benzoic acid | Benzenecarboxylic acid |
| Ph-CH2COOH | Phenylacetic acid | 2-Phenylethanoic acid |
| benzene-(1,2)-(COOH)2 | Phthalic acid | Benzene-1,2-dicarboxylic acid |
(All names from Table 8.3) :contentReference[oaicite:3]{index=3}
3 Geometry & resonance 🧑🔬
The three bonds around the carboxyl carbon lie flat in one plane, separated by about 120°. Because the lone pair on oxygen can delocalize, the group shows resonance:
\[ \ce{R–C(=O)–OH <=> R–C^{δ+}(=O)–O^{δ-}} \]
This resonance makes the carboxyl carbon less electrophilic than an ordinary carbonyl carbon. :contentReference[oaicite:4]{index=4}
4 High-yield NEET takeaways 🚀
- Naming trick: swap the parent-alkane
-efor-oic acid; carboxyl carbon is always number 1. - Resonance effect: delocalization lowers electrophilicity — useful when predicting reactivity trends.
- Planar geometry (≈ 120°): handy for stereochemical questions and reaction-mechanism reasoning.
- Classification: spot the difference between aliphatic
RCOOHand aromaticArCOOHacids quickly. - Common vs IUPAC names: formic ↔ methanoic, acetic ↔ ethanoic, etc.—a favorite for simple one-mark conversions.
5 Let’s recap in one line 💡
Know how to name, recognize the planar resonating carboxyl group, and you’ll ace almost every carboxylic-acid question that shows up! 🎉
