| Educational guide School of Engineering |
english |
| Degree in Mathematical and Physical Engineering (2021) |
 Subjects |
| FLUID MECHANICS |
| Learning outcomes |
| IDENTIFYING DATA | 2023_24 |
| Subject | FLUID MECHANICS | Code | 17274114 | |||||
| Study programme |
|
Cycle | 1st | |||||
| Descriptors | Credits | Type | Year | Period | ||||
| 6 | Compulsory | Third | 1Q |
|||||
| Competences | Learning outcomes | Contents |
| Planning | Methodologies | Personalized attention |
| Assessment | Sources of information | Recommendations |
| Type A | Code | Learning outcomes |
| CE2 |
Distinguish the stress tensor of a fluid in equilibrium, and know the fundamental equation of hydrostatics and its differential and integral form Distinguish and integrate the equations of the streamlines and trajectory of fluid particles Coneix les característiques del díode i els seus models circuitals | |
| CE3 |
Distinguish the stress tensor of a fluid in equilibrium, and know the fundamental equation of hydrostatics and its differential and integral form Distinguishes and integrates the equations of the streamlines and trajectory of fluid particles Apply the material derivative and calculate the acceleration field; he obtains the vorticity field and states Kelvin's theorem Know and apply the condition of incompressible flow and calculates and represents the current function from a speed field Solve classic problems of practical and industrial interest in fluid mechanics, analytically and numerically (Fluent or OpenFoam) Calculate numerically the drag and lift in the flow around a cylinder (Fluent or OpenFoam) Distinguish flow regimes around objects and learn about Stokes' solution for flow around a sphere and its importance in problems of practical and industrial interest Know the boundary layer equations and numerically integrate them (MATLAB) in the case of flow on a flat layer (Blasius solution) Know the detachment condition of the boundary layer | |
| CE6 |
Solve applied problems of fluid statics (forces and pressure center on dikes, floodgates, etc.) Solve classic problems of practical and industrial interest in fluid mechanics, analytically and numerically (Fluent or OpenFoam) Know the boundary layer equations and numerically integrate them (MATLAB) in the case of flow on a flat layer (Blasius solution) | |
| CE10 |
Solve applied problems of fluid statics (forces and pressure center on dikes, floodgates, etc.) Solve classic problems of practical and industrial interest in fluid mechanics, analytically and numerically (Fluent or OpenFoam) Distinguish flow regimes around objects and learn about Stokes' solution for flow around a sphere and its importance in problems of practical and industrial interest | |
| Type B | Code | Learning outcomes |
| CT2 |
Master the tools for managing their own identity and activities in a digital environment Search for and find information autonomously with criteria of reliability and relevance Organize information with appropriate tools (online and face-to-face) so that they can carry out their academic activities Produce information with tools and formats appropriate to the communicative situation and with complete honesty Use IT to share and exchange information | |
| CT4 |
Identify the role they play in the group and understand the group’s objectives and tasks Communicate and act within the group in such a way that they facilitate cohesion and performance Commit to the group’s tasks and agenda Participate in the group in a good working environment and help to solve problems | |
| Type C | Code | Learning outcomes |
