d. e. 3-hexyne (E)-3-hexene Хон

4. Fill in the complete set of reagents necessary for each of the following reactions. Need it soon thanks 

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### Chemical Transformation Examples **Example d. Conversion of 3-hexyne to (E)-3-hexene** - **Reactant:** 3-hexyne - **Structure:** A six-carbon alkyne with a triple bond between the third and fourth carbon atoms. - **Reaction:** The reaction mechanism is not displayed in the image, but typically involves hydrogenation or addition of hydrogen atoms. - **Product:** (E)-3-hexene - **Structure:** A six-carbon alkene with a double bond between the third and fourth carbon atoms, with the "E" configuration indicating that the higher-priority substituents on either side of the double bond are on opposite sides (trans configuration). **Example e. Conversion of Cyclohexanone to Cyclohexanol** - **Reactant:** Cyclohexanone - **Structure:** A six-carbon cyclic ketone with the carbonyl group (C=O) attached to one of the carbon atoms in the ring. - **Reaction:** The reaction mechanism is not displayed in the image, but typically involves the reduction of the carbonyl group. - **Product:** Cyclohexanol - **Structure:** A six-carbon cyclic alcohol with a hydroxyl group (OH) attached to one of the carbon atoms in the ring. These examples illustrate the transformation of functional groups through chemical reactions. Specifically, the conversion of an alkyne to an alkene and a ketone to an alcohol.