Faraday's Laws and Electrochemical
Equivalents - Conductivity Measurements - Molar Conductance - Arrhenius Ionic
Theory - Transport Preparation and Ion Kinetics - Simplified Applications to
Conductance Calculations - Water Ionization Product Ionization Product -
Conduction of Hydrogen Ions and Hydroxide Ions - Stokes Law - Reactivity and
Reactivity Factor - Ionic Strength – Application of continuity theory – Debye
and Huckle theory – Ensuger theory
Defining voltages and galvanic cells -
types of electrodes - types of cells with or without a liquid connection -
electrical force and polar voltages, their recording and measurements - the
dependence of the electromotive force on concentration (Nernst equation) -
thermodynamic results from the electromotive force of the cells - some
applications of electromotive force measurements - constants Equilibrium - pH -
overvoltage, polar currents and chemical reactions - Tafel equation - Butler -
Vollmer equation
Intended learning outcomes
After studying the course, the student will
be able to calculate the electric potential of the multiple galvanic cells,
describe the cell and coding for it, identifying the interactions at the cell
poles, and can apply Faraday's laws to electrolytic cells and other laws
related to electrochemistry
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
