2. Each resonance structure of a given molecule contributes to the resonance hybrid. The more stable the resonance structure, the more that resonance structure contributes to the resonance hybrid. For the following resonance structures, a. Circle the resonance structure that contributes most to the resonance hybrid. b. Explain your choice for a in complete sentences. c. Draw the resonance hybrid. d. Add curved arrows to indicate the flow of electrons in each structure except the D. A B C D

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**Exercise: Resonance Structures of a Given Molecule**

Each resonance structure of a given molecule contributes to the resonance hybrid. The more stable the resonance structure, the more that resonance structure contributes to the resonance hybrid. For the following resonance structures:

a. **Circle** the resonance structure that contributes most to the resonance hybrid.

b. **Explain** your choice for (a) in complete sentences.

c. **Draw** the resonance hybrid.

d. **Add** curved arrows to indicate the flow of electrons in each structure except D.

**Diagrams:**

- Structures A, B, C, and D are shown with arrows indicating resonance.
- Each structure consists of a six-membered ring with nitrogen (N) involved.

1. **Structure A**: Nitrogen has a positive charge, and there is a double bond adjacent to nitrogen.

2. **Structure B**: The positive charge is on the ring, with no immediate double bond at nitrogen.

3. **Structure C**: Nitrogen has no charge, and the positive charge is elsewhere on the ring.

4. **Structure D**: Similar to A with a positive charge on nitrogen, ending the sequence.

**Instructions:**

- Analyze each structure to determine stability.
- Use curved arrows to illustrate electron movement, highlighting shifts in bonds and charges (except in structure D).

This exercise focuses on understanding resonance stability and electron flow, crucial for mastering molecular resonance concepts.
Transcribed Image Text:**Exercise: Resonance Structures of a Given Molecule** Each resonance structure of a given molecule contributes to the resonance hybrid. The more stable the resonance structure, the more that resonance structure contributes to the resonance hybrid. For the following resonance structures: a. **Circle** the resonance structure that contributes most to the resonance hybrid. b. **Explain** your choice for (a) in complete sentences. c. **Draw** the resonance hybrid. d. **Add** curved arrows to indicate the flow of electrons in each structure except D. **Diagrams:** - Structures A, B, C, and D are shown with arrows indicating resonance. - Each structure consists of a six-membered ring with nitrogen (N) involved. 1. **Structure A**: Nitrogen has a positive charge, and there is a double bond adjacent to nitrogen. 2. **Structure B**: The positive charge is on the ring, with no immediate double bond at nitrogen. 3. **Structure C**: Nitrogen has no charge, and the positive charge is elsewhere on the ring. 4. **Structure D**: Similar to A with a positive charge on nitrogen, ending the sequence. **Instructions:** - Analyze each structure to determine stability. - Use curved arrows to illustrate electron movement, highlighting shifts in bonds and charges (except in structure D). This exercise focuses on understanding resonance stability and electron flow, crucial for mastering molecular resonance concepts.
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Each resonance structure of a given molecule contributes to the resonance hybrid. The more stable the resonance structure, the more that resonance structure contributes to the resonance hybrid.

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