Lecture 1 - Introduction to Elementary Electrochemistry
Lecture 2 - The Laws of Electrochemistry and Electrolysis
Lecture 3 - Applications of Faraday's Laws of Electrolysis
Lecture 4 - Electrolytic Conduction: Arrhenius Theory of Electrolytic Dissociation
Lecture 5 - Electrochemical/Galvanic Cell: Construction and Cell Reactions
Lecture 6 - Numerical Problems on Faraday's Laws of Electrolysis
Lecture 7 - Estimation of EMF of a Cell Using Potentiometer
Lecture 8 - EMF of a Cell and Free Energy Change of a Reaction
Lecture 9 - EMF of a Cell and Equilibrium Constant of a Reaction: The Nernst Equation
Lecture 10 - Various Types of Electrodes (Glass,SHE,Calomel) in Electrochemistry
Lecture 11 - Electrode Potential and Applications of Nernst Equation
Lecture 12 - Numerical Problems: Nernst Equation, EMF of Half Cell Reactions
Lecture 13 - Measurement of Cell EMF
Lecture 14 - Electrochemical Cells: Liquid Junction Potential
Lecture 15 - Electrolytic Solutions: Determination of Activity Coefficient
Lecture 16 - Theory of Potentiometric Titrations
Lecture 17 - Preparation of Primary Standard and Standardization of NaOH
Lecture 18 - Potentiometric Titration of Strong Acid and Strong Base
Lecture 19 - Potentiometric Titration of Weak Acid with Strong Base
Lecture 20 - Potentiometric Titration of Dibasic Acid with Strong Base
Lecture 21 - Experimental Calculation of Potentiometric Titrations
Lecture 22 - Conductance and Conductivity of the Solution
Lecture 23 - Experimental Methods to Determine Transport Number
Lecture 24 - Experimental Method to Calculate Transport Number
Lecture 25 - Electrolytic Solutions
Lecture 26 - Conductance Measurement
Lecture 27 - Variation of Conductance with Concentration
Lecture 28 - Ionic Mobilities in terms of ion Conductivities
Lecture 29 - Application of Conductance Measurement - Part 1
Lecture 30 - Application of Conductance Measurement - Part 2
Lecture 31 - Activities in Electrolytic Solutions
Lecture 32 - Ionic Strength of an Electrolyte and its Importance
Lecture 33 - Hydration of Ions and Their Ionic Mobility
Lecture 34 - Solubility and Activity Product
Lecture 35 - Applications of EMF and Conductance Measurement
Lecture 36 - Dissociation Constant of Weak Acids
Lecture 37 - Conductometric Titrations of Strong Acid with Strong Base
Lecture 38 - Conductometric Titrations of Weak Acid with Strong Base
Lecture 39 - Estimation of HCl and Ammonium Chloride in a Triple Mixture using NaOH
Lecture 40 - Estimation of Total Chloride ion Concentration in Triple Mixture using Primary Standard AgNO3
Lecture 41 - Validation of Ostwald Dilution Law using HCl
Lecture 42 - Validation of Ostwald Dilution Law using Acetic Acid
Lecture 43 - Calculation and Graph Plotting for Conductometric Experiments