What is the Difference Between Benzene and Toluene?
🆚 Go to Comparative Table 🆚Benzene and toluene are both aromatic hydrocarbons, but they have different chemical structures and properties. The main differences between benzene and toluene are:
- Structure: Benzene consists of a ring of six carbon atoms with alternating single and double bonds, while toluene is a derivative of benzene with a methyl group (CH3) attached to it.
- Molecular Formula: Benzene has the molecular formula C6H6, while toluene has the molecular formula C7H8.
- Size: Toluene is slightly larger than benzene, containing more atoms. This leads to stronger van der Waals intermolecular attractive forces, resulting in a higher boiling point and lower melting point than benzene.
- Reactivity: The presence of the methyl group in toluene affects its reactivity compared to benzene. For example, the methyl group in toluene can be oxidized under certain conditions, leading to the formation of benzaldehyde or benzoic acid.
- Usage: Both benzene and toluene are used as starting materials for many synthesis reactions. Toluene is used in the polymer industry to make nylon, polyurethanes, and plastic soda bottles, as well as in pharmaceuticals, cosmetics, nail products, dyes, and organic chemicals.
On this pageWhat is the Difference Between Benzene and Toluene? Comparative Table: Benzene vs Toluene
Comparative Table: Benzene vs Toluene
Benzene and toluene are both aromatic hydrocarbons, but they have some differences in their structure and properties. Here is a table comparing the key differences between benzene and toluene:
Property | Benzene | Toluene |
---|---|---|
Chemical Formula | C6H6 | C7H8 |
Structure | Consists of a ring of six carbon atoms with alternating single and double bonds | A derivative of benzene with a methyl group attached to the ring |
Polarity | 0.111 (higher polarity) | 0.099 (lower polarity) |
Basicity | Higher basicity due to steric hindrance | Lower basicity due to the presence of a methyl group |
Both benzene and toluene undergo electrophilic substitution reactions, but their reactivities differ due to the presence of a methyl group in toluene, which reduces its basicity compared to benzene. Toluene is a derivative of benzene, and its molecular structure is C₇H₈, while benzene has the chemical formula C₆H₆.
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