e. Draw an energy vs. reaction coordinate diagram showing both reactions on the same set of axes (axes available on the next page). Draw the 2-iodopropanereaction profile with a dotted line and the 2- chloropropane reaction profile with a solid line, and assume that the potential energies of the reactants and the potential energies of the products are the same in both reactions (i.e. the only difference is in the energies of the two different transition states).

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**SN2 Reaction Comparison**

Consider two SN2 reactions:

1. A reaction between NaOH and 2-iodopropane.
2. A reaction between NaOH and 2-chloropropane, both having the same concentration of reactants.

In these reactions, NaOH acts as a nucleophile, and the halogenated propane (iodo or chloro) is the substrate. The rate of the SN2 reaction is influenced by the leaving group's nature (iodine vs. chlorine) due to their differences in leaving group ability, affecting the overall reaction kinetics.
Transcribed Image Text:**SN2 Reaction Comparison** Consider two SN2 reactions: 1. A reaction between NaOH and 2-iodopropane. 2. A reaction between NaOH and 2-chloropropane, both having the same concentration of reactants. In these reactions, NaOH acts as a nucleophile, and the halogenated propane (iodo or chloro) is the substrate. The rate of the SN2 reaction is influenced by the leaving group's nature (iodine vs. chlorine) due to their differences in leaving group ability, affecting the overall reaction kinetics.
### Transcription for Educational Use

**Instructions for Drawing Energy vs. Reaction Coordinate Diagram:**

e. Draw an energy vs. reaction coordinate diagram showing both reactions on the same set of axes (axes available on the next page).

- Draw the 2-iodopropane reaction profile with a dotted line.
- Draw the 2-chloropropane reaction profile with a solid line.
- Assume that the potential energies of the reactants and the potential energies of the products are the same in both reactions (i.e., the only difference is in the energies of the two different transition states).

**Graph Explanation:**

The graph is set up with:
- A vertical axis labeled "Potential Energy."
- A horizontal axis labeled "Reaction coordinate or progress."

This diagram is used to compare the potential energy changes during the reactions involving 2-iodopropane and 2-chloropropane. The 2-iodopropane reaction is represented with a dotted line, while the 2-chloropropane reaction is represented with a solid line. The main comparison lies in how each reaction reaches its transition state, reflecting differences in energy peaks.
Transcribed Image Text:### Transcription for Educational Use **Instructions for Drawing Energy vs. Reaction Coordinate Diagram:** e. Draw an energy vs. reaction coordinate diagram showing both reactions on the same set of axes (axes available on the next page). - Draw the 2-iodopropane reaction profile with a dotted line. - Draw the 2-chloropropane reaction profile with a solid line. - Assume that the potential energies of the reactants and the potential energies of the products are the same in both reactions (i.e., the only difference is in the energies of the two different transition states). **Graph Explanation:** The graph is set up with: - A vertical axis labeled "Potential Energy." - A horizontal axis labeled "Reaction coordinate or progress." This diagram is used to compare the potential energy changes during the reactions involving 2-iodopropane and 2-chloropropane. The 2-iodopropane reaction is represented with a dotted line, while the 2-chloropropane reaction is represented with a solid line. The main comparison lies in how each reaction reaches its transition state, reflecting differences in energy peaks.
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