# Deepening Course Unit - 3EU2APP6

• #### Number of hours

• Lectures 55.0
• Projects -
• Tutorials 69.0
• Internship -
• Laboratory works 88.0

ECTS 3.0

## Goal(s)

Automatic and Electronic
This course aims future students of ASI, IEE and SICOM departments. It will bring information in automatic and electronic engineering for students who will work in project on robotics.

Fluid Mechanics and Vibrations of Structures
This course aims future students of HOE, IDP, IEN, ME departments.

Automatic and Fluid Mechanics
This course aims future students of SEM departments.

Responsible(s)

Antoine VEZIER

## Content(s)

Automatic and Electronic

*Numerical electronics : FPGA, CA/N and CN/A
*Sensor and signals
*frequency domain representation of numerical signals
*state-space system representation
*analysis and control of dynamic systems

Fluid Mechanics and Vibrations of Structures

*Fluid mechanics applied to transport (20h)

Content:
*#Navier-Stokes
**Rotational and irrotational flows
**Equations of motion and boundary conditions
**Come back over the overall form of the equations: mass balance, momentum and energy (TD application)
*#Solutions of ship-Stokes equations
**Permanent unidirectional flows: plane Poiseuille; Plane Couette; axisymmetric flows, circular Poiseuille
*#Nondimensionalization equations and dimensionless numbers of movement
**Example of simplified equations: Equations with thin films
*#Dynamic Similarity
**Dimensionless equations form; similarity parameters
**Examples of similarity: Reynolds, Froude
**Efforts on underwater obstacles: coefficients of drag and lift, flows around a sphere

*Vibrating structures (20h)

Automatic and Fluid Mechanics
Program described above

Prerequisites

Mandatory course units of 1st year of Ense3

Test

Final exam (CT)

ASI : 1.5 en CC + 1.5 en CT

SICOM : 1.5 en CC + 1.5 en CT

IEE : 1.5 en CC + 1.5 en CT

SEM : 0.9 en CC + 2.1 en CT

HOE : 0.6 en CC + 2.4 en CT

Idp/IEN : 0.6 en CC + 2.4 en CT

ME : 0.6 en CC + 2.4 en CT

Le calcul de l'UE complète (5 ECTS) intègre le projet Apprentissage par problème (3EMS2APP), qui est évalué en CC pour 2 ECTS

Calendar

The course exists in the following branches:

see the course schedule for 2023-2024