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Announcements Exams handed back in lab this week.

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Presentation on theme: "Announcements Exams handed back in lab this week."— Presentation transcript:

1 Announcements Exams handed back in lab this week.
Answer key will be posted on Wednesday. Video: How to analyze dye kinetics lab data (link on course web site) Exam #2 Results- Class average = 68

2 Collision theory is a qualitative explanation of how reactions occur and why rates differ
Reactions occur when Molecules collide… In the correct orientation… With enough energy Consider: NO + O3  NO2 + O2 Molecules collide Bonds are formed and break product molecules separate

3 How does rate respond to different things?
For an increase in . . . The rate . . .

4 We’ll consider rate dependence with regards to these categories…
Concentration Rate Laws Concentration vs. Time Relationships Temperature and Activation Energy Mechanism

5 Rate laws express the concentration dependence of reactions
A general rule … Mechanism matters The bottom line: You can’t predict the rate law! You have to do experiments

6 There are different types of rates
In general, a rate is the change in concentration of something with time Rate over time Instantaneous rate Initial rate

7 Example- Measuring different types of rates

8 Rate Laws (also called Rate Equations)
first order reaction For the reaction: 2 N2O5  4 NO + O2 Rate = k[N2O5] For the reaction: NO2  NO + ½ O2 Rate = k[NO2]2 For the reaction: CO + NO2  CO2 + NO Rate = k[CO][NO2] second order reaction first order in CO and in NO2; second order overall

9 Here is what a “rate law” looks like
First order reaction 2 N2O5  4 NO + O2 Second order reaction NO2  NO + ½ O2 First order in CO and NO2, second order overall CO + NO2  CO2 + NO Zero order

10 If the rate law of a reaction is Rate=[A][B]2 , how what is the order with respect to A?
Zero First Second Third

11 Zero First Second Third
If the rate law of a reaction is Rate=[A][B]2 , how what is the overall order of the reaction? Zero First Second Third

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