This course introduces the fundamental principles and applications of fluid mechanics in engineering systems, with an emphasis on real-world fluid behavior, energy transfer, and flow performance analysis. Students will learn how to describe, model, and analyze the motion of fluids under various conditions using theoretical, analytical, and empirical approaches.
The course bridges the gap between theoretical fluid dynamics and its engineering applications, such as internal flows (pipes, ducts), external flows (drag, lift), and flow systems involving pumps, turbines, and heat exchangers. Emphasis is placed on the use of dimensionless analysis, Reynolds number scaling, and energy conservation principles to predict and optimize flow performance.
- Créateur de cours: Fouzi Guellai
This course covers advanced concepts in mechanics of materials, including buckling, plasticity, thin plates and shells, and fatigue under cyclic loading. It provides students with the skills to analyze complex mechanical structures, evaluate stresses beyond the elastic limit, and design reliable components in real-world engineering applications. Prerequisites include basic strength of materials, rational mechanics, materials science, and applied mathematics.
- Créateur de cours: Nouredine DRIAS
- Créateur de cours: Ferhat Bekhoucha
Mécanique des milieux continus-MMC
- Créateur de cours: mabrouk hecini
- Créateur de cours: Adel Benchabane
- Créateur de cours: Djemoui Mohamdi
- Créateur de cours: hafaidh hadef