8. The heats of hydrogenation of the following four alkenes are 105, 111, 114 and 122 (in kJ/mol). Which alkene does feature the heat of hydrogenation of 114 kJ/mol? 9. Draw the rate-limiting step of the reaction shown below, using curved arrows to show the flow of electrons. If any lone pairs are involved in a reaction, their involvement must be explicitly shown Br2

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**Educational Content: Understanding Heats of Hydrogenation and Reaction Mechanisms** 1. **Question 8: Heat of Hydrogenation** The heats of hydrogenation for four alkenes are given as 105, 111, 114, and 122 kJ/mol. Students are tasked with identifying which alkene has a heat of hydrogenation of 114 kJ/mol. The alkenes are represented by structural formulas: - First Alkene: A simple linear structure with one double bond. - Second Alkene: A branched structure with one double bond. - Third Alkene: A linear structure with one double bond toward the terminal end. - Fourth Alkene: A more complex branched structure with a double bond. **Conceptual Focus:** This exercise helps students understand how different structural features impact the stability and reactivity of alkenes, influencing the heat of hydrogenation. 2. **Question 9: Reaction Mechanism and Rate-Limiting Step** Students are instructed to draw the rate-limiting step of the reaction shown, utilizing curved arrows to indicate the flow of electrons. The provided reaction involves an alkene reacting with bromine (Br₂). - **Reactants:** An alkene structure with Br₂ indicated as a reactant. - **Instructions:** Explicitly show any lone pairs and their involvement in the reaction mechanism. **Conceptual Focus:** This problem emphasizes understanding electron flow in chemical reactions, the concept of rate-limiting steps, and the interaction of lone pairs in reaction mechanisms. By working through these problems, students enhance their ability to predict chemical behavior based on molecular structure and practice key skills in drawing and interpreting reaction mechanisms.