| 1 | Earthquake ground motion, earthquake occurrence, characteristics, severity and magnitude | [1], p. 1-21 |
| 2 | Earth faults and tectonic zones, the seismic waves, measurement of earthquake movement | [1], p. 22-45 |
| 3 | Spectra of the earthquake, the effect on the earthquake motion of ground, soil liquefaction, soil structure interaction | [1], p. 46-75 |
| 4 | Vibrations of structures under ground motion | [1], p. 76-135 |
| 5 | Earthquake behavior of reinforced concrete elements, concrete, steel, slabs, beams, columns and curtains | [1], p. 136-157 |
| 6 | Junction regions, plastic hinge, the princible of capacity in sizing | [1], p. 158-181 |
| 7 | Earthquake-resistant design, safety against earthquakes, .... | [1], p. 182-223 |
| 8 | Elastic earthquake loads, eartquake zone, building use type, period of vibration of the structure, the structure weight, earthquake load effect, ductility of the carrier system - Midterm Exam | [1], p. 224-233 |
| 9 | Equivalent earthquake load method, mode superposition method, time history analysis method, structural systems | [1], p. 234-245 |
| 10 | Requirements for reinforced concrete structures, slabs, beams and columns, beams and column combined regions, curtains, bases, general rules | [1], p. 246-266 |
| 11 | Displacements, retaining walls, reservoirs. | [1], p. 267-268 288-382 |
| 12 | Major earthquakes in Turkey, determination of eartquake damage in buildings, repair and strengthening methods, identification and assessment of damage, types of earthquake damage, gathering information about damage | [1], p. 436-490 |
| 13 | Repair and strengthening in reinforced concrete structures, repair and strengthening materials, strengthening the delivery system components. | [1], p. 491-508 |
| 14 | Strengthening of delivery systems with new elements, strengthening project, determination of safety in existing buildings | [1], p. 509-535 ve 584-588 |