What is the Difference Between Electropositive and Electronegative?
🆚 Go to Comparative Table 🆚Electropositive and electronegative are terms that describe the attraction or repulsion of chemical elements. The key difference between them is:
- Electropositive: This refers to the ability of an atom to lose one or more electrons, forming a positively charged ion, known as a cation. Metals are more electropositive. Electropositivity decreases along a period and increases on moving down the group.
- Electronegative: This refers to the ability of an atom to attract a shared pair of electrons in its combined state, forming a negatively charged ion, known as an anion. Non-metals are more electronegative. Electronegativity increases along a period and decreases on moving down the group.
These values also depend on the atom to which the element gets bonded with. For example, Francium is the most electropositive element, while Fluorine is the most electronegative element.
Comparative Table: Electropositive vs Electronegative
The main difference between electropositive and electronegative elements lies in their tendency to lose or gain electrons during chemical reactions. Here is a comparison table highlighting the key differences between the two:
Property | Electropositive | Electronegative |
---|---|---|
Definition | Electropositive refers to the ability of an element to lose electrons and form cations (positively charged ions). | Electronegative refers to the ability of an element to gain electrons and form anions (negatively charged ions). |
Valence Electrons | Involves the loss of valence electrons. | Involves the gain of valence electrons. |
Ionic Bonds | Electropositive elements form ionic bonds with electronegative elements. | Electronegative elements form ionic bonds with electropositive elements. |
Reactivity | Electropositive elements tend to react with electronegative elements, creating an ionic bond. | Electronegative elements tend to react with electropositive elements, creating an ionic bond. |
Examples | Some examples of electropositive elements include sodium, potassium, and magnesium. | Some examples of electronegative elements include fluorine, oxygen, and chlorine. |
In summary, electropositive elements have a preference for losing electrons, while electronegative elements have a preference for gaining electrons. This difference in electron behavior is essential for understanding the formation of ionic and covalent compounds, predicting the reactivity of elements, and comprehending periodic trends in the periodic table.
- Electronegativity vs Polarity
- Electropositive vs Electronegative Radicals
- Nucleophile vs Electrophile
- Positive vs Negative Ion
- Electronegativity vs Ionization Energy
- Electronegativity vs Electron Affinity
- Electrostatic vs Electromagnetic
- Ions vs Electrons
- Electrophoresis vs Electroosmosis
- Electric Dipole vs Magnetic Dipole
- Electrophoresis vs Dielectrophoresis
- Positive vs Negative Zeta Potential
- Electrovalency vs Covalency
- Ionic vs Electrostatic Interactions
- Valency vs Valence Electrons
- Proton vs Electron
- Electrovalent vs Covalent Bond
- Electromagnetism vs Magnetism
- Electrostatics vs Magnetostatics