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Chemistry Chapter 9 – Collision Theory Teacher: H. Michael Hayes.

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Presentation on theme: "Chemistry Chapter 9 – Collision Theory Teacher: H. Michael Hayes."— Presentation transcript:

1 Chemistry Chapter 9 – Collision Theory Teacher: H. Michael Hayes

2 ‘Learning Objectives’ You will learn the significance of molecular collisions relative to chemical reactions. Types of collisions Reaction mechanism explained by collision theory.

3 Types of Collisions There are two major types of collisions: Elastic Collisions: Reactant particles hit each other but no reaction results! Inelastic Collisions: Reactant particles hit each other and set off a chemical reaction that transforms reactants into products. Two conditions MUST be met for a collision to be inelastic. Reaction particles must have the ‘correct’ orientation (collision geometry) Reactant particles must have energy equal to or greater than the activation energy of the R x

4 Relationship between E a and collisions. The Activation Energy is the minimum collision energy required for a reaction to occur. The distribution curve shows those molecules possessing sufficient energy to react. The larger the hatched area the faster the reaction rate.

5 Reaction mechanism explained by collision theory The Activation Energy is the minimum collision energy required for a reaction to occur. Collision theory explains the interactions between reactant particles and the energy present at each stage in the evolution of a reaction as illustrated by the reaction mechanism. The reaction sequence is demonstrated buy and ENERGY DIAGRAM

6 Complex reaction using collision theory An overall reaction can consist of several intermediate steps – ELEMENTARY REACTIONS. The rate of the overall reaction is dependent on the greatest Activation Energy. In the diagram to the left it is STEP 3 that determines the overall rate of the reaction since it has the highest E a.

7 Collision Theory Done! – We now move on to Chapter 10 – Factors Affecting Reaction Rates.

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