The first chapter: the rate of reactions
and their measurements
Laws of rate of speed, constant of speed,
kinetics of simple reactions, first-order reactions, second-order reactions,
higher-order reactions, rapid reactions and slack method, mechanics of simple
reactions, kinetics of complex reactions, opposite reactions, sequential reactions,
parallel reactions, chain reactions
The second chapter: rate-velocity theories
Dependence of reaction rate on temperature,
Gypsum functions, enthalpy and entropy for activation, collision theory and
Bendemann mechanics, principle of molecular fragmentation function and
activated complex theory, comparison of collision theory with activated complex
theory, some applications of chemical kinetics, reactions in solutions and the
effect of salt
Chapter Three: Heterogeneous Interactions
Types of adsorption, adsorption isotherms,
steps in the mechanics of surface reactions, simple dissociation on surfaces,
the role of surfaces on catalysis, photochemical reactions - quantitative
efficiency of flash photolysis, acid - base catalysts
Intended learning outcomes
After studying the course, the student will be able to
determine the rate of the chemical reaction rate, as well as activate the
chemical reactions, calculate the thermodynamic functions of the reactions, and
know the homogeneous and heterogeneous reactions.
Teaching and learning methods
Theoretical lectures using the blackboard and data show - exercises and solving problems.
Methods of assessments
The first midterm exam - the second midterm exam - the final exam
