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Chemical Equilibrium Chapter 18A

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1 Chemical Equilibrium Chapter 18A
West Valley High School General Chemistry Mr. Mata

2 Copyright©2000 by Houghton Mifflin Company. All rights reserved.
Standard 9A Students will know how to use LeChatelier’s principle to predict the effect of changes in concentration, temperature, and pressure. Copyright©2000 by Houghton Mifflin Company. All rights reserved.

3 Essential Question: How does Le Châtelier’s Principle describe the behavior of a chemical reaction?

4 Reversible Reactions & Chemical Equilibrium
Not all chemical reactions convert all reactant to products. Sometimes , a reaction stops reacting EVEN THOUGH, some amount of reactant remains.

5 Reversible Reactions & Chemical Equilibrium
Reversible reaction = chemical reaction that can occur in either direction. Forward reaction: A -> B Reverse reaction: A <- B Usually combined: A <-> B Chemical equilibrium = point at which the rate of forward reaction equals the rate of reverse reaction.

6 Approaching Equilibrium
Insert figure 15.11

7 Reaching Equilibrium Insert figure 15.12

8 Le Châtelier’s Principle
Proposed by Louis Le Châtelier (1888) to explain observations of change in concentration, pressure,& temperature. “if a stress is applied to a system at equilibrium, the system changes in a direction to reduce that stress”. Stress = concentration, pressure, or temperature changes.

9 Effects of Changes on a System
Concentration: system will shift away from the added component. Temperature: system will change depending on the temperature (treat the energy change as a reactant or product). energy + A B or A B + heat endothermic exothermic

10 Effects of Changes on a System
Pressure: increase in pressure; shifts equilibrium toward side with fewer moles. Decrease in pressure; shifts equilibrium toward side with more moles. Equal moles of reactant & product; no shift.

11 Practical Example of Principle
Fritz Haber (1918) applied Le Châtelier’s principle to develop a method for the industrial synthesis of ammonia. Developed Haber Process. Won Nobel prize in chemistry (1918). N2 (g) + 3H2 (g) -> 2NH3 (g) + energy

12 Practical Example of Principle
Haber process included: Higher concentration of H2 or N2 decreased the other reactant; shifts equilibrium to the right; more NH3 made. Removing NH3 as it forms shifts the equilibrium to the right. Higher temperature (1020 C) shifts equilibrium to right; more NH3 made. Copyright©2000 by Houghton Mifflin Company. All rights reserved.

13 Practical Example of Principle
4. Catalyst used (U or Os); shift equilibrium to the right. 5. Higher pressure (200 atm) shifts equilibrium to right; more NH3 made. Ammonia production very important for fertilizer & explosive applications. Copyright©2000 by Houghton Mifflin Company. All rights reserved.

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