| Topic |
| Session 1 | Guidance, analytical methods of force and composite, center of gravity |
| Session 2 | Expression of mechanical vibration and moment of inertia |
| Session 3 | Undamped vibration of a single degree of freedom system, Newton's equation of motion, and D'Alembert's principle |
| Session 4 | Undamped vibration of a single degree of freedom system (vibration of a beam) and the law of conservation of energy |
| Session 5 | Damped vibration and damped natural frequency of single degree of freedom system |
| Session 6 | Torsional vibration of single degree of freedom system and solution using Laplace transform |
| Session 7 | One degree of freedom undamped forced vibration |
| Session 8 | One degree of freedom damped forced vibration |
| Session 9 | Lagrangian equation of motion |
| Session 10 | Vibration/Dangerous Speed of Rotating Body |
| Session 11 | Forced vibration due to vibration and displacement of a rotating body |
| Session 12 | In-class exam (midterm exam) |
| Session 13 | Explanation of exam questions during class / Explanation of the main points of the questions and how to solve them, supplementary information on related lecture content |
| Session 14 | In-class exams (final exams) |
| Session 15 | Regular Exams |
**This content is based on April 1, 2025. For the latest syllabus information and details, please check the