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Section 2.2.3: Threshold Energy Unit 2: Chemical Kinetics.

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Presentation on theme: "Section 2.2.3: Threshold Energy Unit 2: Chemical Kinetics."— Presentation transcript:

1 Section 2.2.3: Threshold Energy Unit 2: Chemical Kinetics

2 2.2.3 Threshold Energy Let's return to one of the key points of the collision theory - reacting particles must collide with sufficient force or energy. Consider two cars about to become involved in an accident. If both cars are moving very slowly, say 2 km/hr when they collide, not much is going to happen. Perhaps the drivers don't even realize they've hit one another. But if the cars are both travelling at 40 km/hr (greater speed= more energy), then the collision is going to be effective and damage will be done. In our scenario there is a certain speed at which damage will be done to the cars. In chemistry, we call this minimum amount of energy required for particles to collide successfully activation energy.

3 Activation energy is the minimum amount of energy required for a successful collision. Symbol: E a Sometimes referred to as threshold energy.

4 Recall a kinetic energy diagram from the last unit This graph illustrates that some particle have a low amount of kinetic energy (yellow region), some have a lot of kinetic energy (blue), while most particles have some intermediate amount of kinetic energy (purple).

5 Graph #1 Threshold energy is the minimum amount of energy needed for particles to react. For a particular reaction, the threshold energy might be as shown here: Only particles that have the required threshold energy will have enough energy to have a successful collision. Only particles in the green area of the graph will actually react because these are the only particles with enough energy

6 Graph #2 In this graph, the threshold energy is lower so more particles meet this minimum requirement, and more will successfully collide. This means that this reaction will have a faster rate.

7 Assignment Assignment 2.2.3

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