The energies of the valence d orbitals on the manganese atom in the tetrahedral [Mn(CN)4] complex are split according to the electron box level diagram below. (Note: the d orbitals are labeled with just their subscript, to make the labels easier to read.) Complete the diagram by adding the correct number of electrons to each orbital. energy xy 2 yz XZ 1 | X S

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**Electron Configuration in a Tetrahedral Mn(CN)₄ Complex**

The energies of the valence *d* orbitals on the manganese atom in the tetrahedral \([ \text{Mn(CN)}_4 ]^{n-}\) complex are split according to the electron box level diagram below. (Note: the *d* orbitals are labeled with just their subscript, to make the labels easier to read.)

**Diagram Explanation:**

The diagram presents an energy level scheme for the *d* orbitals in a tetrahedral complex. There are two levels:

1. **Higher energy level:**
   - Three orbitals labeled as \(xy\), \(yz\), and \(xz\).

2. **Lower energy level:**
   - Two orbitals labeled as \(z^2\) and \(x^2-y^2\).

There are options for adding electrons, represented visually in the diagram with a digital tool showing increment and decrement buttons for electron counts. The task requires placing electrons into these orbitals according to their energies and the electron count.

Complete the diagram by adding the correct number of electrons to each orbital, ensuring to adhere to the principles of electron filling order and Hund's rule.
Transcribed Image Text:**Electron Configuration in a Tetrahedral Mn(CN)₄ Complex** The energies of the valence *d* orbitals on the manganese atom in the tetrahedral \([ \text{Mn(CN)}_4 ]^{n-}\) complex are split according to the electron box level diagram below. (Note: the *d* orbitals are labeled with just their subscript, to make the labels easier to read.) **Diagram Explanation:** The diagram presents an energy level scheme for the *d* orbitals in a tetrahedral complex. There are two levels: 1. **Higher energy level:** - Three orbitals labeled as \(xy\), \(yz\), and \(xz\). 2. **Lower energy level:** - Two orbitals labeled as \(z^2\) and \(x^2-y^2\). There are options for adding electrons, represented visually in the diagram with a digital tool showing increment and decrement buttons for electron counts. The task requires placing electrons into these orbitals according to their energies and the electron count. Complete the diagram by adding the correct number of electrons to each orbital, ensuring to adhere to the principles of electron filling order and Hund's rule.
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