Equilibrium, Kinetics, Homeostasis Dr. Ron Rusay Spring 2004 © Copyright 2004 R.J. Rusay

Dynamic Equilibrium “ The Pennies” Organize into groups of 3-4. Organize into groups of 3-4. Dr. R will assign your group a number. Dr. R will assign your group a number. In your group, select one person as: In your group, select one person as: 1) Money Keeper 2) Recorder 3) Transfer Agent (Calculating agent) 4) Auditor (Can be combined with #3) Send the Recorder to see Dr. R. for your accounting form. Send the Recorder to see Dr. R. for your accounting form. Be sure to record other group member names on the form. Be sure to record other group member names on the form. After recording all of the names send the Money Keeper to see Dr. R. for your capital stake. After recording all of the names send the Money Keeper to see Dr. R. for your capital stake. Await instructions for phase I. Await instructions for phase I.

Dynamic Equilibrium “ The Pennies” Phase I: Phase II: There will be 8 phases. You can begin and go through them at your own pace. Give Dr. R. the accounting form when completed.

Dynamic Equilibrium “ The Pennies” Class Results Simulator:

Dynamic Equilibrium “ The Pennies”

Chemical Equilibrium

Reaction Diagram of O 3 decomposing O 3 (g) + O (g) 2 O 2 (g) [breakdown (decomposing)] O 2 (g) + O (g) O 3 (g) [formation]

Chemical Equilibrium  Most of the reactions considered until now have had reactants react completely to form products. These reactions “went” only in one direction. [  ]  Some reactions can react in either direction. They are “reversible”. [ ]When this occurs some amount of reactant(s) will always remain at the end of change. Ozone and oxygen in the atmosphere follow this type.

Chemical Equilibrium (Definitions)  A chemical system where the concentrations of reactants and products remain constant over time.  On the molecular level, the system is dynamic: The rate of change is the same in both the forward and reverse directions.

Equilibrium Expression  For any equilibrium Reactants  Products  The Equilibrium Expression relates the concentrations of products and reactants.  The Equilibrium constant, K, indicates which is favored.  If K is large the products are favored, and if K is small reactants are favored. K = Reactants Products ___________

 For a reaction: j A + k B l C + m Dj A + k B l C + m D  The law of mass action is represented by the Equilibrium Expression: where K is the Equilibrium Constant. (Units for K will vary.) Law of Mass Action ( The Equilibrium Expression)

Equilibrium Expressions  If a reaction is reversed where reactants become products and the old products become reactants, the new Equilibrium Expression becomes the reciprocal of the old.  K new = 1/K old

Le Châtelier’s Principle ... If change is imposed on a system at equilibrium, the system will shift in a direction that tends to reduce that change and re-establish the original equilibrium’s relationship of reactants products.

Changes on the System  Concentration: The system will shift concentrations away from the added component. K remains the same.

Changes on the System (continued) The Effect of Catalysts  A catalyst lowers the activation energy barrier for any reaction….effects both forward and reverse directions!  A catalyst will decrease the time it takes to reach equilibrium.  A catalyst does not effect the composition of the equilibrium mixture.

Catalysts Lower the Energy of Activation O3O3O3O3 O2O2O2O2 with Freon

Homeostasis Physiological Equilibrium  “Pools, Balance, Equilibrium, Bio-feedback”  Let Pool be a person’s body weight.  Let Input and Output be energy.  (What are possible sources of energy input and forms of energy output?)  Let’s consider a 70 kg individual with Input = Output = 2000 Cal / day