Give the electron configuration for a neutral atom of manganese (Mn) using an orbital diagram (the kind with lines or boxes for orbitals and arrows to show the electrons)

Give the electron configuration for a neutral atom of manganese (Mn) using an orbital diagram (the kind with lines or boxes for orbitals and arrows to show the electrons).

The correct answer and explanation is :

Electron Configuration of a Neutral Manganese (Mn) Atom:

The atomic number of manganese (Mn) is 25, meaning it has 25 electrons in a neutral atom. The electron configuration is:

1s² 2s² 2p⁶ 3s² 3p⁶ 4s² 3d⁵

Orbital Diagram Representation:

1s  ↑↓  
2s  ↑↓  
2p  ↑↓  ↑↓  ↑↓  
3s  ↑↓  
3p  ↑↓  ↑↓  ↑↓  
4s  ↑↓  
3d  ↑   ↑   ↑   ↑   ↑  

Explanation:

1. Aufbau Principle: Electrons fill orbitals starting from the lowest energy level to the highest.
2. Pauli Exclusion Principle: Each orbital can hold a maximum of two electrons with opposite spins.
3. Hund’s Rule: When filling degenerate orbitals (orbitals of the same energy level), electrons fill singly first before pairing up.

• 1s (2 electrons): The first energy level contains one orbital (1s), which holds two electrons.
• 2s (2 electrons): The second energy level starts with the 2s orbital, which also holds two electrons.
• 2p (6 electrons): The 2p orbitals (three orbitals) can hold six electrons in total.
• 3s (2 electrons): The third energy level starts with the 3s orbital, holding two electrons.
• 3p (6 electrons): The three 3p orbitals hold six electrons.
• 4s (2 electrons): The 4s orbital is filled before the 3d orbitals because it is lower in energy.
• 3d (5 electrons): The five 3d orbitals are filled according to Hund’s Rule, meaning each gets one electron before any pairing occurs.

This configuration shows why manganese has a half-filled 3d⁵ subshell, making it relatively stable due to exchange energy and symmetry.