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Chemical Equilibrium: Le Châtelier’s Principle

Chemical Equilibrium: Le Châtelier’s Principle. Experiment 23 Page 249 Dr. Scott Buzby, Ph.D. Le Châtelier’s Principle. In chemistry, Le Châtelier’s Principle, can be used to predict the effect of a change in conditions on a chemical equilibrium It can be summarized as:

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Chemical Equilibrium: Le Châtelier’s Principle

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  1. Chemical Equilibrium:Le Châtelier’s Principle Experiment 23 Page 249 Dr. Scott Buzby, Ph.D.

  2. Le Châtelier’s Principle • In chemistry, Le Châtelier’s Principle, can be used to predict the effect of a change in conditions on a chemical equilibrium • It can be summarized as: • If a chemical system at equilibrium experiences a change in concentration, temperature, volume, or partial pressure, then the equilibrium shifts to counteract the imposed change and a new equilibrium is established • It is common to take Le Châtelier’s principle to be a more general observation, roughly stated: • Any change in status quo prompts an opposing reaction in the responding system • In chemistry, the principle is used to manipulate the outcomes of reversible reactions, often to increase the yield of reactions

  3. Concentration • Changing the concentration of an ingredient will shift the equilibrium to the side that would reduce that change in concentration. The chemical system will attempt to partially oppose the change affected to the original state of equilibrium. In turn, the rate of reaction, extent and yield of products will be altered corresponding to the impact on the system • This can be illustrated by the equilibrium of carbon monoxide and hydrogen gas, reacting to form methanol. CO + 2 H2 ⇌ CH3OH • Suppose we were to increase the concentration of CO in the system. Using Le Châtelier’s principle we can predict that the amount of methanol will increase, decreasing the total change in CO • If we are to add a species to the overall reaction, the reaction will favor the side opposing the addition of the species. Likewise, the subtraction of a species would cause the reaction to fill the “gap” and favor the side where the species was reduced

  4. Temperature • The effect of changing the temperature in the equilibrium can be made clear by incorporating heat as either a reactant or product. • When the reaction is exothermic (ΔH is negative, puts energy out), we include heat as a product, and when the reaction is endothermic (ΔH is positive, takes energy in), we include it as a reactant. • Hence, we can tell whether increasing or decreasing the temperature would favor the forward or reverse reaction by applying the same principle as with concentration changes.

  5. Temperature Con’t. • For example, the reaction of nitrogen gas with hydrogen gas. This is a reversible reaction, in which the two gases react to form ammonia: N2 + 3 H2 ⇌ 2 NH3    ΔH = -92 kJ mol-1 • If you put heat as a product: N2 + 3 H2 ⇌ 2 NH3 + 92kJ • This is an exothermic reaction (hence the minus sign) when producing ammonia. If we were to lower the temperature, the equilibrium would shift to produce more heat. Since making ammonia is exothermic, this would favor the production of more ammonia

  6. Procedure • Part I: Changes in Concentration • A. Copper and Nickel Ions – Pg 250 • B. Cobalt Ions – Pg 251 • Part II: Equilibria Involving Sparingly Soluble Salts – Pg 251 • Part III: Effect of Temperature – Pg 253

  7. Due Next Week • Report Sheet – Pg 255-256 • Pre-Lab Experiment 20 – Pg 220

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