• M2 Aerospace Engineering

    The Aerospace Engineering specialization of the Applied Sciences field prepares its graduates for research-oriented activities. It targets scientific and technical R&D positions in the aeronautics and space industries. This training is thus designed for careers in academic and industrial research centers, engineering departments and consulting, and higher education.

    Pedagogy
    This Master's program is organized around a common core of 4 blocks of 4 ECTS each-covering fluid dynamics and turbulence, propulsion and aerodynamics, numerical simulation and applied mathematics, and reactive media-as well as a dedicated training in English of 4 ECTS, designed in conjunction with the Language Department. The Master includes 12 ECTS of methodological courses distributed over both M2 semesters as well as a project, which confronts students directly to research questions in the first semester.
    Students take a combination of 4 elective courses, chosen from among 11, over both semesters so as to diversify the curriculum and allow for the multidisciplinary approach necessary to the development of research in the field of aerospace engineering. Three emphases are possible- Control and Systems, Mechanics of Structures, and In-Depth Mechanics-but these depend more on the student choices than on preset curricula.

    Career Opportunities
    This specialization prepares students for either immediate professional placement or further doctoral study, in any of the technological domains of the aerospace industry: from the design and optimization of aerospace launchers to the control of satellite trajectories, the aerodynamic design of drones, and the modeling and simulation of turbulent combustion in turbo-reactor combustion chambers.
    Job opportunities are enhanced by the program's close contacts with major companies in the related industries: SNECMA Moteurs, Grosse propulsion (SAFRAN Group), Dassault, EADS Group: Astrium, Airbus, Eurocopter, MDBA, and ST.
    Graduates pursue careers in engineering and research at innovative small and medium size enterprises, large companies, research institutions, and in higher education.
    • Aeronautics industry
    • Automobile, rail, and maritime industries
    • Energy

    Partner Laboratories
    This specialization includes courses offered in common with the 3rd-year Aerospace Engineering and Energy options at Centrale Paris, as well as with the DSMSC Specialization.

    Program

    The M2 is divided into two semesters of 30 ECTS each. The common core of 4 required courses is taken in the first semester:

    Common Core
    • Fluid Dynamics and Turbulence
    • Propulsion or Aerodynamics
    • Reactive Media
    • Applied Mathematics and Numerical Simulation

    Elective Courses

    Students select 4 elective courses from the list below. Other elective courses may be selected from other specializations at École Centrale Paris.
    • Digital Control Laboratory
    • Materials for Aeronautic and Energetic Applications
    • Structure Mechanics (3 modules: Vibrations and Structures, Numerical Mechanics of Solids, and one case study)
    • Flight Mechanics
    • Satellite Dynamics
    • Systems Control
    • Advanced Aerodynamics
    • Compressible and Supersonic Flows
    • Acoustics
    • Algorithmics and Programming
    • Aeroacoustics
    • Introduction to Instabilities and Bifurcations in Fluid Mechanics
    • Diphasic Flows

    Language
    • English

    Methodological Activities
    • Multidisciplinary Synthesis Project
      Students select two modules from among the following three:
      • Acquisition and Numerical Signal Processing
      • Numerical Signal Processing
      • Optical Diagnoses and Experimental Techniques

    Internship
    • Internship at a research unit

    Students also have the option of following a systems curriculum (control and control engineering) at the Control Engineering Department at Supélec.
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Career Opportunities

This specialization prepares students for either immediate professional placement or further doctoral study, in any of the technological domains of the aerospace industry: from the design and optimization of aerospace launchers to the control of satellite trajectories, the aerodynamic design of drones, and the modeling and simulation of turbulent combustion in turbo-reactor combustion chambers.
Job opportunities are enhanced by the program's close contacts with major companies in the related industries: SNECMA Moteurs, Grosse propulsion (SAFRAN Group), Dassault, EADS Group: Astrium, Airbus, Eurocopter, MDBA, and ST.
Graduates pursue careers in engineering and research at innovative small and medium size enterprises, large companies, research institutions, and in higher education.

  • Aeronautics industry
  • Automobile, rail, and maritime industries
  • Energy

Partner Laboratories

This specialization includes courses offered in common with the 3rd-year Aerospace Engineering and Energy options at Centrale Paris, as well as with the DSMSC Specialization.