Curved arrows are used to illustrate the flow of electrons. Follow the curved arrows and draw the product of this carbocation rearrangement. Include all lone pairs. H + 1,2-hydride shift H ✓

Transcribed Image Text:

**Curved Arrows and Carbocation Rearrangement** In organic chemistry, curved arrows are a visual tool used to illustrate the flow of electrons. This exercise involves understanding the movement of electrons during a carbocation rearrangement. **Diagram Description:** 1. **Chemical Structure:** - The diagram shows a cyclohexane ring bonded to two carbon atoms, each with a hydrogen atom (H) attached. - On the right side of the structure, there is a positively charged carbon, indicating a carbocation. 2. **Curved Arrow:** - A curved arrow points from the hydrogen atom (H) next to the positively charged carbon towards the carbocation. This arrow shows the movement of a hydride ion (H⁻). 3. **Process:** - The rearrangement described is a 1,2-hydride shift. This involves the migration of a hydride (H⁻) from one carbon to the adjacent positively charged carbon, stabilizing the carbocation. 4. **Instruction:** - Follow the movement indicated by the arrow and draw the rearranged product, ensuring to include all lone pairs. By understanding the electron flow as indicated by the curved arrows, this exercise aids in grasping the concepts of stability and rearrangement in carbocations.

Transcribed Image Text:

Curved arrows are used to illustrate the flow of electrons. Follow the curved arrows and draw the product of this carbocation rearrangement. Include all lone pairs. The diagram shows a hydrocarbon structure with three methyl groups (CH₃) attached to a central carbon atom. A positively charged carbocation is indicated on the carbon that is bonded to one methyl group and lacking hydrogen atoms. A curved arrow is drawn from a bond between the central carbon and one of the methyl groups, pointing towards the positively charged carbon, demonstrating the electron shift. Below the structure, the text "1,2-methide shift" explains the type of carbocation rearrangement occurring, indicating a shift of a methide group (CH₃⁻) from one carbon to the adjacent carbon atom. An arrow pointing downward further emphasizes the direction of this rearrangement.