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Fall 2016

N/A

CHE 11600

Concentration Reactions Catalyst Inhibitor Reaction Rates

Relationship between concentration, rate, and reaction order Rate laws Determining the rate constant Method of Initial Rates

Method of Integrated Rate Laws Collision Model of Chemical Kinetics Arrhenius Activation energy Orientation effect Effect of temperature on reaction rate Catalysis homogeneous heterogenous curved arrow notation rules

Rules for Writing Reaction Mechanisms Intermediates elementary steps molecularity - unimolecular, bimolecular, termolecular experimental steps test 1 and test 2 activation energy and graphs Mechanisms involving rapid pre-equilibria rate laws

Half life of a reaction Reaction assumptions Determining the order of reactions Method of initial rates

Determining rate law using experimental data Determining rate constant using experimental data Reason for ineffective reactions even though collisions occur Activation energy Orientation effect Rarity of Termolecular Reactions Effect of Increasing Temperature on the rate of reactions Effect of Increasing the amount of a reactant on the rate of reactions

Concentration Expressions Reaction Rates Method of Instantaneous Rates Method of Initial Rates Method of Integrated Rate Laws Collision Model of Chemical Kinetics Orientation Effect Effect of Temperature on Reaction Rate Catalysis Activation Energy Curved Arrow Notation Rules Elementary steps, intermediates, and the overall reaction Molecularity