What is the Difference Between Primary Secondary and Tertiary Halogenoalkanes?
🆚 Go to Comparative Table 🆚The difference between primary, secondary, and tertiary halogenoalkanes lies in the number of alkyl groups bonded to the carbon atom carrying the halogen atom:
- Primary halogenoalkanes: In these compounds, the carbon atom with the halogen atom is bonded to only one alkyl group.
- Secondary halogenoalkanes: In these compounds, the carbon atom with the halogen atom is bonded to two alkyl groups.
- Tertiary halogenoalkanes: In these compounds, the carbon atom with the halogen atom is bonded to three alkyl groups.
The reactivity of halogenoalkanes depends on the type of halogen atom they contain (fluorine, chlorine, bromine, or iodine) and the number of halogen atoms present in the molecule, which can range from one to four. The relative rate of reaction of halogenoalkanes is primarily determined by the bond polarity and bond strength. In general, tertiary halogenoalkanes form a precipitate the fastest, followed by secondary halogenoalkanes and finally primary halogenoalkanes.
Comparative Table: Primary Secondary vs Tertiary Halogenoalkanes
The difference between primary, secondary, and tertiary halogenoalkanes lies in the position of the carbon atom carrying the halogen atom and the number of alkyl groups it is bonded to. Here is a table summarizing the characteristics of each type:
Type | General Structure | Carbon Bonding | Examples |
---|---|---|---|
Primary | R-CH2-X | 1 | 1-bromoethane, CH3CH2Br |
Secondary | R-CH(X)-CH2-R' | 2 | 2-chloropropane, CH3CHClCH2CH3 |
Tertiary | R-C(X)(CH2-R')2 | 3 | 2-chloro-2-methylpropane, (CH3)3C-Cl |
- Primary Halogenoalkanes: In primary halogenoalkanes, the carbon atom carrying the halogen atom is bonded to only one alkyl group.
- Secondary Halogenoalkanes: In secondary halogenoalkanes, the carbon atom carrying the halogen atom is bonded to two alkyl groups.
- Tertiary Halogenoalkanes: In tertiary halogenoalkanes, the carbon atom carrying the halogen atom is bonded to three alkyl groups.
Understanding the classification of halogenoalkanes is important because it can affect their reactivity and behavior in various chemical reactions.
- Haloalkanes vs Haloarenes
- Primary vs Secondary Alcohol
- Primary vs Secondary Allylic Carbocations
- Halogens vs Pseudohalogens
- Primary vs Secondary Valency
- Halogens vs Halides
- Alkanes vs Alkenes
- Alkyl Halide vs Aryl Halide
- Allylic vs Benzylic Halides
- Alkenes vs Alkynes
- Alternant vs Nonalternant Hydrocarbons
- Vinylic Halides vs Aryl Halides
- Alkyl Nitrite vs Nitro Alkane
- Halogen vs Metal Halide
- Primary vs Secondary Standard Solution
- Halon vs Halotron
- Primary Secondary vs Tertiary Follicle
- Aliphatic vs Aromatic Hydrocarbons
- Bromine vs Chlorine