Curved arrows are used to illustrate the flow of electrons. Using the provided starting and product structures, draw the curved electron-pushing arrows for the following reaction. Be sure to account for all bond-breaking and bond-making steps.

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### Organic Chemistry Reaction: Alkyne Formation This image demonstrates a chemical reaction involving the conversion of an alkyl bromide to an alkyne using sodium amide (NaNH₂). #### Top Section: - **Reactants:** - **Chemical Structure:** An alkyl bromide with a benzene ring on each end. - **Reagents:** - Sodium cation (Na⁺) is present. - Ammonia (NH₃) is shown, likely as a solvent. This section is labeled "Select to Add Arrows," indicating that reaction mechanisms or electron-pushing arrows should be drawn to illustrate the process. #### Middle Section: - **Reagent:** NaNH₂ (Sodium Amide) #### Bottom Section: - **Products:** - **Chemical Structure:** An alkyne with benzene rings at both ends, indicating the formation of a triple bond. - Bromide (Br⁻) anion and Na⁺ cations remain. - Sodium cation (Na⁺) and ammonia (NH₃) are also present. ### Explanation: The reaction likely involves the deprotonation of an alkyne precursor by sodium amide, followed by the elimination of the bromide ion to form a triple bond between the carbon atoms, producing an alkyne. This transformation is commonly used in organic synthesis to construct more complex molecular architectures. **Note:** Ensure to add electron-flow arrows when studying or illustrating the reaction, to clearly show the mechanism.

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The image displays a chemical reaction pathway, featuring two key stages involving organic compounds and reagents. ### Stage 1: - **Chemical Structure:** - A bicyclic compound with a bromine (Br) atom attached to the central carbon. - Two benzene rings are present, linked by a central carbon chain. - Reagents: Sodium (Na) and sodium amide (NaNH₂) are involved. - **Instruction:** - "Select to Add Arrows" indicates an interactive element where users can add reaction arrows to represent the movement of electrons or reaction progress. ### Stage 2: - **Chemical Structure:** - This stage likely shows the interaction of the reagents from Stage 1 with the compound. - Two Na atoms and two bromine associated anionic structures appear, suggesting ionic separation or interactions. - Ammonia (NH₃) molecules are shown in the vicinity, possibly indicating formation or reaction sites. - **Instruction:** - "Select to Add Arrows" suggests the continuation of the interactive process for education on reaction mechanisms. The image emphasizes user interaction in learning organic reaction mechanisms by allowing the addition of arrows to illustrate electron flow and chemical transformations.