Use the molecular orbital energy diagram below to answer the questions about bond order for the positive ion H₂+. Number of Number of Bonding Electrons Antibonding Electrons This corresponds to: A. Single bond B. Double bond C. Triple bond D. Half of a bond E hydrogen 1s- MO's 015 H₂+ Bond Order E. Between a single and double bond F. Between a double and a triple bond G. No bond, H₂+ does not form. hydrogen + - 1s

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**Transcription and Explanation for Educational Website:**

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**Title: Understanding Bond Order in the \( \text{H}_2^+ \) Ion**

Use the molecular orbital energy diagram below to answer the questions about bond order for the positive ion \( \text{H}_2^+ \).

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**Table:**

- **Number of Bonding Electrons:** [Input box]
- **Number of Antibonding Electrons:** [Input box]
- **\( \text{H}_2^+ \) Bond Order:** [Input box]

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**Bond Type Correspondence:**

This corresponds to:

- A. Single bond
- B. Double bond
- C. Triple bond
- D. Half of a bond
- E. Between a single and double bond
- F. Between a double and a triple bond
- G. No bond, \( \text{H}_2^+ \) does not form.

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**Molecular Orbital Diagram Explanation:**

In the diagram, the molecular orbital (MO) formation for the \( \text{H}_2^+ \) ion is represented. 

The diagram is structured as follows:

- The vertical axis represents energy (labeled as "E").
- On the left, "hydrogen with subscript A" shows one hydrogen atom with the \( 1s \) orbital.
- On the right, "hydrogen with subscript B" shows the hydrogen ion \( \text{(H}^+ \text{)} \).

Between these, under the column labeled "MO's," there are:

- **\( \sigma_{1s} \):** A lower energy bonding molecular orbital.
- **\( \sigma^*_{1s} \):** A higher energy antibonding molecular orbital (indicated by the asterisk).

The dashed lines connect the \( 1s \) orbitals of hydrogen to the bonding and antibonding molecular orbitals, indicating the formation of these MOs from the combination of atomic orbitals.

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**Interactive Elements:**

- **Submit Answer:** Button to submit the answer.
- **Retry Entire Group:** Button for retrying.
- Indicator: "7 more group attempts remaining."

**Navigation:**

- **Previous \( \leftarrow \)**
- **Next \( \rightarrow \)**

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This educational page helps students understand how to analyze and determine the bond order of the dihydrogen cation
Transcribed Image Text:**Transcription and Explanation for Educational Website:** --- **Title: Understanding Bond Order in the \( \text{H}_2^+ \) Ion** Use the molecular orbital energy diagram below to answer the questions about bond order for the positive ion \( \text{H}_2^+ \). --- **Table:** - **Number of Bonding Electrons:** [Input box] - **Number of Antibonding Electrons:** [Input box] - **\( \text{H}_2^+ \) Bond Order:** [Input box] --- **Bond Type Correspondence:** This corresponds to: - A. Single bond - B. Double bond - C. Triple bond - D. Half of a bond - E. Between a single and double bond - F. Between a double and a triple bond - G. No bond, \( \text{H}_2^+ \) does not form. --- **Molecular Orbital Diagram Explanation:** In the diagram, the molecular orbital (MO) formation for the \( \text{H}_2^+ \) ion is represented. The diagram is structured as follows: - The vertical axis represents energy (labeled as "E"). - On the left, "hydrogen with subscript A" shows one hydrogen atom with the \( 1s \) orbital. - On the right, "hydrogen with subscript B" shows the hydrogen ion \( \text{(H}^+ \text{)} \). Between these, under the column labeled "MO's," there are: - **\( \sigma_{1s} \):** A lower energy bonding molecular orbital. - **\( \sigma^*_{1s} \):** A higher energy antibonding molecular orbital (indicated by the asterisk). The dashed lines connect the \( 1s \) orbitals of hydrogen to the bonding and antibonding molecular orbitals, indicating the formation of these MOs from the combination of atomic orbitals. --- **Interactive Elements:** - **Submit Answer:** Button to submit the answer. - **Retry Entire Group:** Button for retrying. - Indicator: "7 more group attempts remaining." **Navigation:** - **Previous \( \leftarrow \)** - **Next \( \rightarrow \)** --- This educational page helps students understand how to analyze and determine the bond order of the dihydrogen cation
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