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Chemical Kinetics. Collision Model Collisions must have enough energy to produce the reaction (must equal or exceed the activation energy).Collisions.

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Presentation on theme: "Chemical Kinetics. Collision Model Collisions must have enough energy to produce the reaction (must equal or exceed the activation energy).Collisions."— Presentation transcript:

1 Chemical Kinetics

2 Collision Model Collisions must have enough energy to produce the reaction (must equal or exceed the activation energy).Collisions must have enough energy to produce the reaction (must equal or exceed the activation energy). Reactants must have proper orientation to allow the formation of new bonds.Reactants must have proper orientation to allow the formation of new bonds.

3 Reactions can occur: Very fast – such as a firecracker Very slow – such as the time it took for dead plants to make coal Moderately – such as food spoilage A “rate” is a measure of the speed of any change that occurs within an interval of time In chemistry, reaction rate is expressed as the amount of reactant changing per unit time. Example: 3 moles/year, or 5 grams/second

4 I wonder what happens if I mix these two solutions…

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6 WOW, that was really FAST

7 It was also really FUN

8 I wonder if I should be wearing my goggles?

9 Activation Energy The minimum energy required to transform reactants into the activated complex (The minimum energy required to produce an effective collision) Flame, spark, high temperature, radiation are all sources of activation energy

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11 Collision Model   Collisions must have enough energy to produce the reaction: must equal or exceed the “activation energy”, which is the minimum energy needed to react.   Will a AA battery start a car? Think of clay clumps thrown together gently – they don’t stick, but if thrown together forcefully, they stick tightly to each other.

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15 Exothermic Processes Processes in which energy is released as it proceeds, and surroundings become warmer Reactants  Products + energy

16 Endothermic Processes Processes in which energy is absorbed as it proceeds, and surroundings become colder Reactants + energy  Products

17 2NO 2 (g)  2NO(g) + O 2 (g) Reaction Rates: 2. Can measure appearance of products 1. Can measure disappearance of reactants 3. Are proportional stoichiometrically

18 The Reaction Mechanism  The reaction mechanism is the series of steps by which a chemical reaction occurs.  A chemical equation does not tell us how reactants become products; it is a summary of the overall process.  The  sign has represents the reaction mechanism, but gives no indication of the steps in the mechanism  Reactants  Products

19 The Rate-Determining Step In a multi-step reaction, the slowest step is the rate-determining step. It therefore determines the rate of reaction.

20 Factors Affecting Rate 1. Temperature Increasing temperature always increases the rate of a reaction.

21 Things that Affect Rate –More and harder collisions. –Faster Reactions..

22 2. Surface Area Increasing surface area increases the rate of a reaction

23 3. Concentration Increasing concentration USUALLY increases the rate of a reaction

24 Things that Affect Rate –More concentrated molecules closer together –Collide more often. –Faster reaction.

25 Things that Affect Rate 4. Catalysts- substances that speed up a reaction without being used up.(enzyme). Speeds up reaction by giving the reaction a new path.Speeds up reaction by giving the reaction a new path. The new path has a lower activation energy.The new path has a lower activation energy. More molecules have this energy.More molecules have this energy. The reaction goes faster.The reaction goes faster. Inhibitor- a substance that blocks a catalyst.Inhibitor- a substance that blocks a catalyst.

26 Catalysis Catalyst: A substance that speeds up a reaction by lowering activation energyCatalyst: A substance that speeds up a reaction by lowering activation energy Enzyme: A large molecule (usually a protein) that catalyzes biological reactions.Enzyme: A large molecule (usually a protein) that catalyzes biological reactions. Homogeneous catalyst: Present in the same phase as the reacting molecules.Homogeneous catalyst: Present in the same phase as the reacting molecules. Heterogeneous catalyst: Present in a different phase than the reacting molecules.Heterogeneous catalyst: Present in a different phase than the reacting molecules.

27 Endothermic Reaction w/Catalyst

28 Exothermic Reaction w/Catalyst

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