What is the Difference Between Effective Nuclear Charge and Nuclear Charge?
🆚 Go to Comparative Table 🆚The difference between effective nuclear charge and nuclear charge lies in the way electrons in an atom experience the attractive force of the nucleus. Here are the key differences:
- Nuclear Charge: This is the total positive charge of all the protons in the nucleus of an atom. It is represented by the atomic number (Z) and is the same for all electrons in the atom.
- Effective Nuclear Charge: This is the net positive charge experienced by an electron in a multi-electron atom. It is always smaller than the actual nuclear charge due to electron-electron repulsions. The effective nuclear charge depends on the type of electron and is experienced by the outer shell electrons.
The reason for the difference between nuclear charge and effective nuclear charge is that electrons in an atom do not all experience the same attraction towards the nucleus. Electrons in inner shells partially shield the outer electrons from the full nuclear charge, making the effective nuclear charge felt by the outer electrons smaller than the actual nuclear charge. As a result, the effective nuclear charge determines the size and energy of orbitals, which in turn influence important chemical properties such as the element's size, how easily it loses or gains electrons, and its electronegativity.
Comparative Table: Effective Nuclear Charge vs Nuclear Charge
Here is a table comparing the differences between effective nuclear charge and nuclear charge:
| Property | Effective Nuclear Charge (Zeff) | Nuclear Charge (Z) |
|---|---|---|
| Definition | The net positive charge experienced by valence electrons | The total positive charge of the nucleus |
| Formula | Zeff = Z - S (Shielding constant) | Z = number of protons in the nucleus |
| Unit | - | - |
| Dependence | Depends on the atomic number and electronic configuration of the atom | Depends only on the atomic number of the atom |
| Role in Periodic Trends | Effective nuclear charge affects atomic sizes and ionization energies | Nuclear charge affects physical and chemical properties of elements |
| Variation | Always less than the nuclear charge due to electron shielding | The effective nuclear charge can vary depending on the atomic number and electron configuration |
| Example | The nuclear charge of Zn is 30, but the 3d electrons only experience a Zeff of approximately 8.85 | The effective nuclear charge experienced by valence electrons in a neutral atom of fluorine (F) is not equal to 9 (the nuclear charge) due to electron shielding |
In summary, the effective nuclear charge (Zeff) is the net positive charge experienced by valence electrons in an atom, while the nuclear charge (Z) is the total positive charge of the nucleus. The effective nuclear charge takes into account electron shielding, which affects atomic sizes and ionization energies. On the other hand, the nuclear charge directly depends on the atomic number of the atom and influences physical and chemical properties of elements.
- Effective Nuclear Charge vs Shielding Effect
- Nuclear Reaction vs Chemical Reaction
- Valency vs Charge
- Proton vs Neutron
- Neutron vs Neutrino
- Nuclear Fusion vs Fission
- Oxidation Number vs Charge
- Atomic vs Nuclear Bomb
- Atomic Number vs Mass Number
- Electropositive vs Electronegative
- Nuclear Energy vs Light Energy
- Proton vs Electron
- Electronegativity vs Ionization Energy
- Atomic Number vs Atomic Weight
- Atomic Number vs Atomicity
- Coal Energy vs Nuclear Energy
- Atomic Radius vs Ionic Radius
- Current vs Charge
- Isotope vs Ion