Introduction; types of systems; state functions and path functions; extensive and intensive properties;
reversible and irreversible processes.
1st law of thermodynamics; internal energy and enthalpy; heat capacities of gases, liquids and solids;
application of the 1st law to isothermal, adiabatic, constant pressure and constant volume processes with ideal
gas as system; thermochemistry; Kirchoff’s equation; adiabatic flame temperature; H-T diagrams.
Carnot cycle; entropy; different statements of the 2nd law of thermodynamics; statistical interpretation of