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Chemical Kinetics Chapter 14.

Published byYuliani Dharmawijaya Modified over 5 years ago

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Presentation on theme: "Chemical Kinetics Chapter 14."— Presentation transcript:

1 Chemical Kinetics Chapter 14

2

3

4 TRANSITION STATE

5 Activated Complex

6 Kinetics vs Thermodynamics

7 Catalysts

8 Collision Theory Particles must collide before they can react
The collision must be properly oriented for the necessary arrangement of atoms and electrons Forceful enough – possessing enough energy to form products

9 Collision Theory Particles must collide before they can react
The collision must be properly oriented for the necessary arrangement of atoms and electrons Forceful enough – possessing enough energy to form products

10 Rates of Reactions Reaction rates tell how fast reactants change into products Nature of reactants Concentration Temperature Surface Area Presence of a Catalyst

11 Elementary Steps Step 1: X + Y  M (slow) Step 2: X + M  Z (fast)
What is the rate determining step? What are the intermediates? Is there a catalyst present? What is the net reaction?

12 Elementary Steps Step 1: 2NO  N2O2
Step 2: N2O2 + H2  N2O + H2O (slow) Step 3: N2O + H2  N2 + H2O What is the rate determining step? What are the intermediates? Is there a catalyst present? What is the net reaction?

13 Elementary Steps Step 1: Ce4+ + Mn2+  Ce3+ + Mn3+
Step 3: Tl+ + Mn4+  Tl3+ + Mn2+ What are the intermediates? Is there a catalyst present? What is the net reaction?

14 Rate Laws must be determined experimentally.
Rate = k[A]x[B]y Rate Laws must be determined experimentally. The ONLY time you do NOT need to use the experimental trial is for a one step reaction.

15 Reaction Order xA(aq) + yB(aq)  AB(s) Rate = k[A]x[B]y
It is order x with respect to A. It is order y with respect to B *The net reaction order = x + y.

16 What is the reaction order?
Rate = k[A][B]2 What is the reaction order? Rate = k[A]3[B]2

17 Reaction Order Determine the rate law for the following one step reactions: 2NO + O2  2NO2 2NO + Br2  2NOBr

18 Determining Rate Laws Experimentally

19 Determining Rate Laws Experientially

20 Determining Rate Laws Experimentally
Initial Rate Method: Rate1 [A]x1[B]y1 [A]1 x [B]1 y Rate2 [A]x2[B]y2 [A]2 [B]2

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