| 1 | Introduction, pressured flows | [ 6 ], s. 379 - 393 |
| 2 | Energy losses;Local and friction losses | [6 ], s. 393 - 408 |
| 3 | Hydraulic of pressurized flow | [ 6 ], s. 409 - 420 |
| 4 | Pipes in paralel and three-reservoir problems | [ 6 ], s. 420 - 422 |
| 5 | Hydraulic analysis and design of pipeline systems; Hardy-Cross and lineer theory methods | [ 6 ], s. 420 - 422, [ 2 ], s. 121 - 126 |
| 6 | Open channel flow / classification / uniform flow | [ 6 ], s. 569 - 586 |
| 7 | Channel Efficiency, the best hydraulic section, channel design | [ 6 ], s. 589 - 596 |
| 8 | Rapidly varied flow and its equation and applications - I. Midterm Exam | [ 6 ], s. 612 - 654 |
| 9 | Specific energy / specific energy curve, and Kosch parabola, | [ 6 ], s. 597 - 603 |
| 10 | Momentum principle, conjugate depths | [ 6 ], s. 603 - 607, 612 - 622 |
| 11 | Hydrulic jumps and energy losses | [ 6 ], s. 603 - 607, 612 - 622 |
| 12 | Gradually varied flow and the equation / water surface profiles and analysis | [ 6 ], s. 654 - 658 |
| 13 | Computation of water surface profiles in gradually varied flows | [ 6 ], s. 684 - 702 |
| 14 | Channel controls and use of hydraulic softwares | [ 6 ], s. 684 - 702 |