H3C-C=C-CH3 Arrow-pushing Instructions H3C Alkynes are reduced to trans alkenes by a process called dissolving metal reduction. The reaction uses sodium or lithium metal as the reducing agent and liquid ammonia as the solvent. The method is specific in the formation of trans alkenes from alkynes. The method involves two successive transfers of single electrons from the alkali metal to the triple bond, with abstraction of protons from the ammonia solvent. Draw curved arrows to show the movement of electrons in this step of the mechanism. NOC XT H3C Na, NH3 CH3 HÌNH, H3C CH3 H CH3 NH₂

Please depict whether the arrow indicates a change in 1 electron or an electron pair!

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H3C-C=C-CH3 NOC XT H3C H3C Alkynes are reduced to trans alkenes by a process called dissolving metal reduction. The reaction uses sodium or lithium metal as the reducing agent and liquid ammonia as the solvent. The method is specific in the formation of trans alkenes from alkynes. The method involves two successive transfers of single electrons from the alkali metal to the triple bond, with abstraction of protons from the ammonia solvent. Draw curved arrows to show the movement of electrons in this step of the mechanism. Arrow-pushing Instructions Submit Answer CH3 HÌNH, Na, NH3 Retry Entire Group H3C 9 more group attempts remaining CH3 H CH3 NH₂

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H3C-C=C-CH3 07 H3C Alkynes are reduced to trans alkenes by a process called dissolving metal reduction. The reaction uses sodium or lithium metal as the reducing agent and liquid ammonia as the solvent. The method is specific in the formation of trans alkenes from alkynes. The method involves two successive transfers of single electrons from the alkali metal to the triple bond, with abstraction of protons from the ammonia solvent. Draw curved arrows to show the movement of electrons in this step of the mechanism. Arrow-pushing Instructions Na. H3C →XT Submit Answer CH3 Na, NH3 Retry Entire Group H3C C CH3 9 more group attempts remaining CH3 Na+