| 1 | General information about design and analysis | [1, s. 1-10],[2, s. 3-12],[3, s. 9-14] |
| 2 | Introduction to mechanical analysis, Modal analysis | [3, s. 11-69][4, s. 13-83],[5, s. 15-100] |
| 3 | Structural analysis | [1, s. 70-83][7, s. 84-100],[8, s. 101-120] |
| 4 | Nonlinear Structural analysis | [1, s. 84-104][2, s. 101-125],[3, s. 121-150] |
| 5 | Dynamic analysis (Transient) | [1, s. 105-136][2, s. 126-163],[3, s. 151-196] |
| 6 | Forced vibration analysis (harmonic response, response spectrum, random vibration) | [1, s. 137-184][2, s. 164-221],[3, s. 197-265] |
| 7 | Optimization | [1, s. 185-200][2, s. 222-240],[3, s. 266-288] |
| 8 | Fatigue Analysis | [1, s. 201-219][2, s. 241-263],[3, s. 289-316] |
| 9 | Project preparation | [1, s. 220-242][2, s. 264-290],[3, s. 317-348] |
| 10 | Criteria for sustainable design | [1, s. 220-242][2, s. 264-290],[3, s. 317-348] |
| 11 | The endurance account for sustainable design | [1, s. 220-242][2, s. 264-290],[3, s. 317-348] |
| 12 | Energy in sustainable buildings | [1, s. 220-242][2, s. 264-290],[3, s. 317-348] |
| 13 | Structural analysis in sustainable structures | [1, s. 220-242][2, s. 264-290],[3, s. 317-348] |