Sciences 3rd Year - Space

    33 ECTS - 425 hours

     

    Dimensioning of mechanical couplings - 35 hours

    • Isostatism of a mechanism, analysis, determination and functional incidences
    • Theory of contact between solids
    • Dimensioning of guidance, assembly and power transmissions
    • Introduction to fatigue

    Combustion - 35 hours 

    • Introduction to various modes of heat transfer
    • Conduction (heat equation, stationary and variable regimes)
    • Convection
    • Radiation

    Systems command and modelling - 45 hours

    • Time frequency duality
    • Stability
    • PID controllersr

    Signal processing - 35 hours 

    • Analysis of periodic signals
    • Signal energy and power
    • Analogue digital conversion
    • Introduction to digital fi ltering

    CAD - 20 hours 

    • Design, dimensioning and modeling (CATIA)
    • 3D modeling (CATIA)

    Systems Mechanics - 40 hours 

    • Systems energy
    • Virtual work and Lagrange equations
    • Vibration analysis

    Fluid Mechanics - 35 hours 

    • Fluid dynamics
    • Dimensional analysis and similarity
    • Boundary layer (laminar and turbulent)

    Electric machines - 40 hours 

    • Power electronics
    • Electromechanical conversion (energy effi ciency)
    • Structure and principle of electric machines (synchronous and asynchronous)
    • Application to electrical motors and converters

    Digital electronics - 40 hours 

    • Logic functions
    • Combinatory and sequential circuits
    • Introduction to information transmission

    Digital tools for modeling - 35 hours 

    • Linear systems
    • Interpolation, approximation and integration
    • Ordinary differential equations (explicit and implicit methods)
    • Partial differential equations (finite differences)

    0D modeling - 20 hours 

    • Model complexity analysis
    • Parameter analysis and dimensioning
    • Programming, validation and optimization

    Software engineering and UML object modeling - 35 hours 

    • Presentation of UML
    • UML static and dynamic diagrams
    • Development of an application

    Experimental practical work - 15 hours