What is the Difference Between Inductive Effect and Electromeric Effect?
🆚 Go to Comparative Table 🆚The inductive effect and electromeric effect are both electronic factors that influence chemical reactions, but they differ in their permanence and the type of bonds they affect.
Inductive Effect:
- Results in a permanent dipole in a chemical bond due to the transmission of a charge through a chain of atoms.
- Observed in sigma (σ) bond systems.
- Occurs when two atoms with different electronegativity values form a bond.
- Permanent effect that doesn't need the presence of a reagent.
Electromeric Effect:
- Results in a temporary polarization of molecules.
- Affects electrons in pi bonds.
- Complete transfer of pi electrons in a molecule in the presence of an electrophilic or nucleophilic reagent.
- Temporary effect that needs the presence of an electrophilic or nucleophilic reagent.
In summary, the inductive effect is a permanent dipole in a chemical bond, while the electromeric effect is a temporary polarization of molecules that requires the presence of an electrophilic or nucleophilic reagent. The inductive effect is observed in sigma bond systems, whereas the electromeric effect affects pi bonds.
Comparative Table: Inductive Effect vs Electromeric Effect
The inductive effect and electromeric effect are both electronic factors that influence chemical reactions, but they differ in their mechanisms and applications. Here is a comparison table highlighting the differences between the two:
| Property | Inductive Effect | Electromeric Effect |
|---|---|---|
| Definition | The inductive effect is the transmission of a charge through a chain of atoms, resulting in a permanent dipole in a chemical bond. | The electromeric effect is the complete transfer of pi electrons in a molecule in the presence of an electrophilic or nucleophilic reagent. |
| Bond System | Observed in the sigma ([\sigma]) bond system. | Not observed in the sigma ([\sigma]) bond system. |
| Electronegativity | Occurs when two atoms with different electronegativity values form a bond. | Does not involve a direct relationship with electronegativity values. |
| Permanence | Inductive effect is a permanent effect and does not need the presence of a reagent. | Electromeric effect is a temporary effect and requires the presence of an electrophilic or nucleophilic reagent. |
In summary, the inductive effect involves the distribution of electron density along a chain of atoms, leading to a permanent dipole in a bond, whereas the electromeric effect involves the complete transfer of pi electrons in a molecule in the presence of an electrophilic or nucleophilic reagent, and it is a temporary effect.
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