Using crystal field theory, draw an electron box energy level diagram for the valence d orbitals on the manganese atom in a a [MnF] complex. Your diagram should show the relative energy of each orbital, and the number of electrons in each orbital. Note: to make your diagram easier to read, label the d orbitals with just the subscript. For example, label the d2 orbital with just 2². Energy X 1 L

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**Title: Drawing an Electron Box Energy Level Diagram for Valence d Orbitals** **Introduction:** Using crystal field theory, this activity involves drawing an electron box energy level diagram for the valence \( d \) orbitals on the manganese atom in a \([ \text{MnF}_6]^{4-}\) complex. Your diagram should accurately depict the relative energy of each orbital and the number of electrons present in each orbital. **Instructions:** 1. **Diagram Requirements:** - The energy level diagram should show the relative energy levels of the \( d \) orbitals. - Indicate the number of electrons in each orbital. 2. **Notations:** - Label the \( d \) orbitals using only the subscript for clarity. For instance, label the \( d_{z^2} \) orbital as just \( z^2 \). **Diagram Description:** - **Left Portion:** An empty box is provided to draw the diagram. An arrow pointing upwards is labeled "Energy," indicating increasing energy levels from bottom to top. - **Right Portion:** Drawing tools include options to sketch boxes, draw lines, and erase. **Conclusion:** This exercise helps in understanding the arrangement and energy distribution of \( d \) orbitals in complex ions, which is critical in predicting chemical behavior and properties. Use this tool to effectively illustrate these concepts.