What is the Difference Between Chlorobenzene and Chlorocyclohexane?
🆚 Go to Comparative Table 🆚Chlorobenzene and chlorocyclohexane are both cyclic organic compounds, but they have distinct differences in their chemical structure and reactivity. The key differences between them are:
- Chemical Formula: Chlorobenzene has the chemical formula C6H5Cl, while chlorocyclohexane has the chemical formula C6H11Cl.
- Ring Structure: Chlorobenzene has alternative double bonds in its ring structure, whereas chlorocyclohexane has only single bonds in its ring structure.
- Hybridization: Chlorocyclohexane has sp3 hybridization, whereas chlorobenzene has sp2 hybridization.
- Reactivity: Chlorocyclohexane can react with 2% ethanoic silver nitrate to give a white color precipitate, while chlorobenzene does not react with 2% ethanoic silver nitrate. This difference in reactivity is due to the different hybridization of the C atom in the C-Cl bond.
- Classification: Chlorobenzene is a haloarene, while chlorocyclohexane is a haloalkane. Haloalkanes are generally more reactive than haloarenes.
In summary, chlorobenzene and chlorocyclohexane differ in their chemical structure, ring structure, hybridization, reactivity, and classification. These differences can be used to distinguish between the two compounds in a laboratory setting.
Comparative Table: Chlorobenzene vs Chlorocyclohexane
Chlorobenzene and chlorocyclohexane are both cyclic organic compounds, but they have different chemical structures and properties. Here is a table comparing their key differences:
Property | Chlorobenzene | Chlorocyclohexane |
---|---|---|
Chemical Formula | C6H5Cl | C6H11Cl |
Ring Structure | Aromatic, with alternative double bonds | Non-aromatic, with only single bonds |
Reaction with 2% Ethanoic Silver Nitrate | Does not react | Reacts to form a white precipitate |
Chlorobenzene is an aromatic organic compound with the chemical formula C6H5Cl, whereas chlorocyclohexane is a non-aromatic organic compound with the chemical formula C6H11Cl. In chlorobenzene, there are alternative double bonds in the ring structure, while chlorocyclohexane has only single bonds in its ring structure. When reacted with 2% ethanoic silver nitrate, chlorobenzene does not react, but chlorocyclohexane reacts to form a white precipitate.
- Chlorobenzene vs Cyclohexyl Chloride
- Chloroethane vs Chlorobenzene
- Benzene vs Cyclohexane
- Ethyl Chloride vs Chlorobenzene
- Cyclohexane vs Cyclohexene
- Hexane vs Cyclohexane
- Naphthalene vs p-Dichlorobenzene
- Benzene vs Toluene
- Benzyl Chloride vs Benzoyl Chloride
- Borazine vs Benzene
- Chloroform vs Dichloromethane
- Benzene vs Benzine
- Cyclopentane vs Cyclopentene
- Cis vs Trans Cyclohexane
- Chloroform vs Carbon Tetrachloride
- Benzene vs Phenol
- Benzene vs Gasoline
- Cyclobutane vs Cyclopropane
- Benzene vs Phenyl