Transcribed Image Text:

**Title: Drawing the Skeletal (Line-Bond) Structure of trans-4-methylhex-2-ene** **Instruction:** Draw the skeletal (line-bond) structure of trans-4-methylhex-2-ene. **Interactive Section:** [Dashed Box Placeholder] - Select to Draw **Detailed Explanation:** In this activity, you are required to draw the skeletal or line-bond structure for the compound trans-4-methylhex-2-ene. The skeletal structure, also known as the line-bond structure, is a simplified way to represent organic molecules where carbon atoms are implied at the ends and bends of lines, and hydrogen atoms attached to carbons are generally omitted for clarity. **Steps:** 1. Identify the longest carbon chain in the molecule, which in this case is hexane with six carbons. 2. Determine the position of the double bond at the second carbon (hex-2-ene). 3. Indicate the methyl group (CH3) attached to the fourth carbon. 4. Ensure the configuration is trans, indicating that the substituents (methyl groups, in this case) on the double-bonded carbons are across from each other. **Key Points:** - The hex chain should be drawn first. - The double bond is introduced between the second and third carbons. - A methyl group (CH3) is placed on the fourth carbon. - The trans configuration demands careful placement of substituents to ensure they are opposite each other across the double bond. **Note:** When drawing online, use the interactive drawing area to create and manipulate the structure according to the steps provided. **End of Instructions:**