Lecture 1 - Introduction - I
Lecture 2 - Introduction - II
Lecture 3 - Definition of thermodynamic terms
Lecture 4 - Understanding of thermodynamic equilibrium - I
Lecture 5 - Understanding of thermodynamic equilibrium - II
Lecture 6 - Understanding of thermodynamic equilibrium - III
Lecture 7 - Concept of Entropy - I
Lecture 8 - Concept of Entropy - II
Lecture 9 - Concept of Entropy - III
Lecture 10 - Concept of equilibrium based on entropy and internal energy
Lecture 11 - Concept of equilibrium based on auxiliary functions
Lecture 12 - Equilibrium Condition - Helmholtz Free Energy
Lecture 13 - Equilibrium Condition - Gibbs Free Energy
Lecture 14 - Phase equilibria - consideration of chemical potential - I
Lecture 15 - Phase equilibria - consideration of chemical potential - II
Lecture 16 - Phase equilibria in H2O system - Clapeyron Equation
Lecture 17 - Phase equilibria in H2O system - Practical examples and ∆G calculations for given T
Lecture 18 - Phase equilibria in H2O system - Clausius-Clapeyron Equation
Lecture 19 - Phase equilibria in H2O system - Hierarchy of Equilibrium/Stability - I
Lecture 20 - Phase equilibria in H2O system - Hierarchy of Equilibrium/Stability - II
Lecture 21 - Phase equilibria in H2O system - G vs P plot at constant Temperature
Lecture 22 - Understanding the G vs T Plot for the Iron (Fe)
Lecture 23 - Multicomponent Systems - Concept of Standard State
Lecture 24 - Multicomponent Systems - Mixing of Ideal Gases
Lecture 25 - Multicomponent Systems - Calculation of ∆Hmix, ∆Gmix, and ∆Smix, for Ideal Gas Systems - I
Lecture 26 - Multicomponent Systems - Calculation of ∆Hmix, ∆Gmix, and ∆Smix, for Ideal Gas Systems - II
Lecture 27 - Condensed Solution - Analysing Gibbs Free Energy of Mixing
Lecture 28 - Condensed Solution - Understanding Raoult’s Law
Lecture 29 - Condensed Solution - Understanding Henry’s Law
Lecture 30 - Condensed Solution - Calculation of ∆Gmix
Lecture 31 - Condensed Solution - Calculation of ∆Hmix, ∆Gmix, ∆Smix, and ∆Vmix
Lecture 32 - Condensed Solution - Understanding the Significance of ∆Hmix, ∆Gmix, ∆Smix, and ∆Vmix
Lecture 33 - Condensed Ideal Solution - Graphical Representation of ∆Hmix, ∆Smix, and ∆Gmix
Lecture 34 - Condensed Ideal Solution - Graphical Representation of ∆Gmix, ΔG̅MA and ΔG̅MB
Lecture 35 - Condensed Ideal Solution - Graphical Representation of Gibbs Free Energy of Solution
Lecture 36 - Condensed Ideal Solution - Graphical Representation of Partial Molar Gibbs Free Energy of Components in a Binary Solution - II
Lecture 37 - Condensed Ideal Solution- Common Tangent and Concept of Equilibrium between Two Phases
Lecture 38 - Understanding Isomorphous Phase Diagram - I
Lecture 39 - Understanding Isomorphous Phase Diagram - II
Lecture 40 - Understanding Isomorphous Phase Diagram - Lever Rule and Fraction of Phases
Lecture 41 - Calculation of Isomorphous Phase Diagram - I
Lecture 42 - Calculation of Isomorphous Phase Diagram - II
Lecture 43 - Calculation of Isomorphous Phase Diagram - III
Lecture 44 - Deviation from Ideality- Formation of Solution
Lecture 45 - Non-Ideal Solution- Regular Solution Model and Expression of ∆Hmix - I
Lecture 46 - Non-Ideal Solution- Regular Solution Model and Expression of ∆Hmix - II
Lecture 47 - Enthalpy of mixing (∆Hmix) and Gibbs Free Energy of Mixing (∆Gmix) - Deviation from Ideality - I
Lecture 48 - Enthalpy of mixing (∆Hmix) and Gibbs Free Energy of Mixing (∆Gmix) - Deviation from Ideality - II
Lecture 49 - Enthalpy of mixing (∆Hmix) and Gibbs Free Energy of Mixing (∆Gmix) - Deviation from Ideality - III
Lecture 50 - Enthalpy of mixing (∆Hmix) and Gibbs Free Energy of Mixing (∆Gmix) - Deviation from Ideality - IV
Lecture 51 - Enthalpy of mixing (∆Hmix) and Gibbs Free Energy of Mixing (∆Gmix)
Lecture 52 - Enthalpy of mixing (∆Hmix) and Gibbs Free Energy of Mixing (∆Gmix)
Lecture 53 - Evolution of G-X Plot with Variation in Interaction Parameter (Ω)
Lecture 54 - Evolution of G-X Plot and associated Phase Diagram with Variation in Interaction Parameter (Ω) - I
Lecture 55 - Evolution of G-X Plot and associated Phase Diagram with Variation in Interaction Parameter (Ω) - II
Lecture 56 - Evolution of G-X Plot and associated Phase Diagram with Variation in Interaction Parameter (Ω) - III
Lecture 57 - Evolution of G-X Plot and associated Phase Diagram with Variation in Interaction Parameter (Ω) - IV
Lecture 58 - Understanding Eutectic Phase Diagram
Lecture 59 - Understanding Eutectic Phase Diagram and Partitioning and Partitionless Transformation
Lecture 60 - Understanding Eutectoid and Peritectic Phase Diagram
Lecture 61 - Understanding Peritectic Phase Diagram - Part A
Lecture 62 - Understanding Complex Phase Diagrams and the Concept of Diffusion Phenomena - Part B
Lecture 63 - Understanding Gibbs’ Phase Rule
