What is the ground state electron configuration for Bet? O (01)² (01s*)²2 (02)² (02s*)² (₂p) (02p)¹ (015)² (015*)²2 (025)² (02s*)² (π2p*)³ (01s)²2 (01s*)² (02)² (025*)¹ (015)²2 (01s*)² (02)² (02s*)² What is the bond order for Bet?

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### Ground State Electron Configuration and Bond Order for Be₂⁺ **Question:** What is the ground state electron configuration for Be₂⁺? **Options:** 1. \((\sigma_{1s})^2(\sigma_{1s}^*)^2(\sigma_{2s})^2(\sigma_{2s}^*)^2(\pi_{2p})^4(\sigma_{2p})^1\) 2. \((\sigma_{1s})^2(\sigma_{1s}^*)^2(\sigma_{2s})^2(\sigma_{2s}^*)^2(\pi_{2p}^*)^3\) 3. \((\sigma_{1s})^2(\sigma_{1s}^*)^2(\sigma_{2s})^2(\sigma_{2s}^*)^1\) 4. \((\sigma_{1s})^2(\sigma_{1s}^*)^2(\sigma_{2s})^2(\sigma_{2s}^*)^2\) **Question:** What is the bond order for Be₂⁺? **Answer Box:** Bond order: [______________] --- **Explanation:** In this interactive question, students are prompted to identify the correct ground state electron configuration for the diatomic ion Be₂⁺ from a set of given options. Additionally, they are asked to calculate the bond order for Be₂⁺ based on their understanding of molecular orbital theory. The molecular orbitals are denoted by \(\sigma\) and \(\pi\) labels, indicating bonding or antibonding interactions. The \(^*\) symbol indicates an antibonding orbital. The numbers in parentheses indicate the number of electrons occupying each type of orbital. Students need to use their knowledge of electron filling in molecular orbitals to determine both the correct electron configuration and subsequently calculate the bond order, which can be entered into the provided text box.