Question

The activation energy for the reverse reaction can be determined by looking at the potential energy diagram.

In the given reaction, hexane (C6H6) and oxygen (O2) react to produce carbon dioxide (CO2) and water (H2O). The reaction is exothermic, meaning it releases energy.

Based on the given potential energy diagram, the activation energy for the forward reaction is the energy difference between the reactants (C6H6 + O2) and the highest point on the diagram (transition state). In this case, the difference is approximately 80 kJ.

For the reverse reaction, the activation energy is the energy difference between the products (CO2 + H2O) and the highest point on the diagram (transition state). Since the given potential energy diagram does not show the reverse reaction, we can assume that the activation energy for the reverse reaction is the same as the activation energy for the forward reaction, which is approximately 80 kJ.

Therefore, the correct answer is e) –80 kJ.

I apologize for the confusion in my previous response. Upon reevaluating the information provided, it appears that I made an error.

Based on the given reaction and the potential energy diagram, the activation energy for the reverse reaction can be determined by comparing the energy difference between the products (CO2 + H2O) and the highest point on the diagram (transition state). From the diagram, it looks like the energy difference is approximately 65 kJ, which indicates that the activation energy for the reverse reaction is 65 kJ.

Therefore, the correct answer is c) 65 kJ. I apologize for any confusion caused by my previous response.

Yes, after reevaluating the information, the correct answer for the activation energy of the reverse reaction is c) 65 kJ.