| 1 | Introduction to thermodynamics and fundamental concepts | [1], [2], Lect. Notes |
| 2 | Energy conversions and forms, heat and work with energy transfer | [1], [2], Lect. Notes |
| 3 | Internal energy and enthalpy, ideal gas equations | [1], [2], Lect. Notes |
| 4 | Thermodynamic properties of pure substances and Thermodynamic Laws | [1], [2], Lect. Notes |
| 5 | First Law of Thermodynamics | [1], [2], Lect. Notes |
| 6 | Energy analysis of closed systems using the First Law | [1], [2], Lect. Notes |
| 7 | Energy analysis of open systems (control volume) using the First Law – Midterm Exam | [1], [2], Lect. Notes |
| 8 | Fundamental principles of the Second Law of Thermodynamics | [1], [2], Lect. Notes |
| 9 | Analysis of gas-fluid power cycles and steam cycles | [1], [2], Lect. Notes |
| 10 | Refrigeration cycles | [1], [2], Lect. Notes |
| 11 | Performance and energy efficiency analysis in cooling and heat machines | [1], [2], Lect. Notes |
| 12 | Introduction to heat transfer and heat transfer mechanisms (conduction, convection, radiation) | [1], [2], Lect. Notes |
| 13 | Applications of heat transfer – problem solving | [1], [2], Lect. Notes |
| 14 | Introduction to software packages used in thermodynamics and heat transfer analysis | [1], [2], Lect. Notes |
| 15 | Final Exam | [1], [2], Lect. Notes |
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