21. Draw the product of the following reaction.  

Transcribed Image Text:

**Transcription of the Image for Educational Use** This image depicts a chemical reaction involving an organic compound. The structure on the left is a cyclopentene ring attached to a carbon-carbon triple bond (alkyne). The reaction is indicated by an arrow pointing to the right, suggesting a change or transformation in the chemical structure. Above the arrow, the reagents are specified as sodium (Na) and liquid ammonia (NH₃(l)). This combination is typically used in organic chemistry to perform a reduction reaction, specifically the Birch reduction, which reduces alkynes and aromatic rings. **Diagram Explanation:** - **Left Side (Reactant):** The molecule features a five-membered carbon ring (cyclopentene) attached to a linear segment with a triple bond, indicating an alkyne group. - **Reaction Conditions (Center):** Sodium metal in liquid ammonia is used as a reagent. This is a common setup for reducing unsaturated systems, like aromatic rings or alkynes, through electron transfer processes. - **Right Side (Product):** While the product structure is not shown, the expected outcome of such a reaction typically involves the conversion of the alkyne to a trans-alkene. This representation serves as an example of how reductions of alkynes can be achieved using metal-ammonia reagents in organic synthesis.