PREFACE.SYMBOLS AND NOTATION.1.THERMODYNAMIC CHANGES, PROPERTIES & TYPES OF FUNCTION:.INTENSIVE / EXTENSIVE PROPERTIES, HISTORYINDEPENDENT FUNCTIONS & STATE FUNCTIONS.2.INTEGRATION IN THERMODYNAMICS.3.

GRAPHICAL GRADIENTS & INTERCEPTS.DIFFERENTIATION IN THERMODYNAMICS.EQUATION OF STATE FOR AN IDEAL GAS.4.THE IDEAL GAS.5.PARTIAL DERIVATIVES (∂Z/∂Y)Z SIMPLIFIED.6.

REARRANGEMENT OF EQUATIONS.LOGARITHMS & EXPONENTIALS.ADAPTING EQUATIONS IN THERMODYNAMICS TO APPLY TO SPECIAL CONDITIONS.7.THERMODYNAMICS: MAIN FEATURES.DEFINITIONS.SIGN CONVENTIONS.HEAT & WORK.

ZEROTH LAW OF THERMODYNAMICS.SPONTANEOUS PROCESSES.8.HEAT & WORK.FIRST LAW OF THERMODYNAMICS.9.WORK OF EXPANSION.IRREVERSIBLE & REVERSIBLE CHANGES.

10.INTERNAL ENERGY, U AND ENTHALPY, H;.qP & qV AND HEAT CAPACITIES, Cp & Cv.11.REFERENCE STATES.THERMODYNAMIC DATA AT 298 K.AND AT OTHER TEMPERATURES.12.

BOND ENTHALPY (ENERGY).13.SPONTANEITY, ENTROPY & GIBBS ENERGY.14.ENTROPY & SECOND LAW.THE EQUIVALENCE OF THE CRITERIA, ΔG system 0 TO JUDGE THE SPONTANEITY OF PROCESSES.15.CALCULATION OF ENTROPY.

16.THE THIRD LAW OF THERMODYNAMICS.ABSOLUTE (THIRD LAW) ENTROPY, So.17.THE STATISTICAL DEFINITION OF ENTROPY.THE BOLTZMAN EQUATION: S = k ln W.18.QUALITATIVE APPLICATION OF THEORY.

GENERAL VARIATION OF GIBBS ENERGY FUNCTION, G WITH TEMPERATURE, T AT CONSTANT PRESSURE (dP = 0) FOR ANY PHASE OF A PURE SUBSTANCE.19.QUALITATIVE APPLICATION OF THEORY.GENERAL VARIATION OF ENTHALPY AND ENTROPY FUNCTIONS, H AND S, WITH TEMPERATURE, T AT CONSTANT PRESSURE (dP = 0) FOR ANY PHASE OF A PURE SUBSTANCE.20.QUALITATIVE APPLICATION OF THEORY SO FAR:.VARIATION OF GIBBS ENERGY, G WITH PRESSURE, P AT CONSTANT TEMPERATURE (dT = 0).AND.

VARIATION OF ENTROPY, S WITH PRESSURE, P AT CONSTANT TEMPERATURE (dT= 0) FOR AN IDEAL GAS.21.QUALITATIVE APPLICATION OF THEORY:.GENERAL VARIATION OF GIBBS ENERGY FUNCTION, G VERSUS TEMPERATURE, T FOR SOLID, LIQUID AND GASEOUS PHASES.PREDICTION OF PROPERTIES.22.QUALITATIVE APPLICATION OF THEORY;.GENERAL VARIATION OF ENTHALPY FUNCTION, H WITH TEMPERATURE, T FOR SOLID, LIQUID AND GASEOUS PHASES.

23.QUALITATIVE APPLICATION OF THEORY:.EFFECT OF PRESSURE ON MELTING POINT, Tm AND BOILING POINT, Tb.Case (i): (NORMAL) SUBSTANCES FOR WHICH:.Vg >> Vl > Vs.24.QUALITATIVE APPLICATION OF THEORY:.EFFECT OF PRESSURE ON MELTING POINT, Tm AND BOILING POINT, Tb.

CASE (ii): WATER FOR WHICH Vg >> Vl.25.QUANTITATIVE APPLICATONS:.APPROACH TO PHASE EQUILIBRIA.THE CLAPEYRON EQUATION.26.APPLICATIONS:.QUANTITATIVE APPROACH TO PHASE EQUILIBRIA.

THE CLAUSIUSCLAPEYRON EQUATION.MEASUREMENT OF VAPOUR PRESSURE OVER A LIQUID, AND DETERMINATION OF ΔvapHo FOR A LIQUID.TROUTON'S RULE.27.APPLICATIONS.OPEN SYSTEMS.CHEMICAL POTENTIAL.CHEMICAL REACTIONS.

28.APPLICATIONS: COUPLED REACTIONS.29.CHEMICAL POTENTIALS APPLIED TO PHYSICAL PROCESSES.CLOSED & OPEN SYSTEMS.30.THE PHASE RULE.31.

QUANTITATIVE THERMODYNAMICS OF PHASES IN EQUILIBRIUM.