The benefits of a Masters extend beyond improving your earning potential. They can provide you with personal and professional skills to accelerate your development. They are also an opportunity to differentiate yourself from your peers, many of whom will have similar A-level and undergraduate qualifications.
A Master in Aerospace Engineering is a degree that includes subjects such as aeroacoustics, aerodynamics, propulsion or aerospace structures. It prepares students for work in the aerospace industry or related research fields.
Request Information Part time Masters Degrees in Aerospace Engineering 2017
The Advanced Master course AMPAS, is designed by Mines Albi and ISAE with the support of aeronautical industry partners. [+]
The level of training Master Mode of study Full-time program leading institute of aeronautical engineering [+]
This program implements the concept of "learning through research" and is aimed at building competencies for future masters in the field of modern space technologies and their working off at the nano-satellite class CubeSat. [+]
The master’s program “Aircraft Propulsion and Power Systems,” implemented within the scope of the “Aircraft Engines” area, boasts international status and has been developed in conjunction with the University of Stuttgart (Germany). The program is aimed at training high-caliber specialists in the design of aviation gas-turbine engines and power-system drives. [+]
The master’s program “Aircraft Propulsion and Power Systems,” implemented within the scope of the “Aircraft Engines” area, boasts international status and has been developed in conjunction with the Polytechnic University of Turin (Politecnico di Torino) (Italy). The program is aimed at training high-caliber specialists in the design of aviation gas-turbine engines and power-system drives. [+]
The master’s program “Aircraft Propulsion and Power Systems”, implemented within the scope of the “Aircraft Engines” area, boasts international status and has been developed in conjunction with the Nanjing University of Aeronautics and Astronautics (China). The program is aimed at training high-caliber specialists in the design of aviation gas-turbine engines and power-system drives. [+]
The Master of Space Studies programme is designed to prepare scientists to respond to a myriad of challenges and opportunities. In addition to coursework in space sciences, the curriculum is enriched by a Master's thesis and a series of guest lecturers from international, national and regional institutions. [+]
The French and European space programmes are economically and strategically important for the future: the development of access to space, with applications such as Earth observation or telecommunications, activities related to research in a zero-gravity environment, the presence of man in space, the continuation of development of the large families of satellites such as Spot, development of mini and micro-satellites, preparation of various interplanetary probes and the missions to Mars, all of these are subjects that are currently being developed. Becoming an engineer in the space sector means working on the construction of launchers, spacecraft (satellites, probes, shuttles, orbital stations) and thrusters, and also taking part in the launch and operation of satellites. [+]
Reduction in the weight of aircraft, reduction in polluting emissions, increase in aircraft capacity, development and integration of electrical commands: innovation is constant in the aeronautical sector, to reconcile economic and technical performance, in complete security. Being an engineer in aeronautics means working on the design and operation of aircraft (aeroplanes, helicopters, balloons), and embedded systems. [+]
Aerospace Engineering is a four-semester programme with core and elective courses. The core modules are applied aerodynamics, aerospace propulsion systems, atmospheric flight dynamics, aerospace structures, automatic flight control and design methods in the aerospace industry. [+]
The Special Degree in Aerospace Engineering (Code LM-28400) aims to develop experts that can be employed in advanced research and aerospace development centres. Students experience a system-oriented approach to aerospace engineering [+]
Master of Engineering in Reliability [+]
The joint Master's programme in Turbomachinery Aeromechanical University Training (THRUST) is a cooperation between KTH, Duke University, Aristotle University of Thessaloniki and Université de Liège. The programme offers education of high [+]
The MS program “Advanced Metallic Materials and Engineering” offers high-quality postgraduate education in non-ferrous physical metallurgy and mechanical and aerospace engineering. [+]
Master in Advanced Metallic Materials and Engineering
A MS program “Advanced Metallic Materials and Engineering” offers high-quality postgraduate education in mechanical and aerospace engineering, and non-ferrous physical metallurgy.
Total amount of Academic Credits: 120 credits.
Academic Credits for R&D work and dissertation: 45 credits.
Academic Credits for educational courses: 75 credits.
The medium of instruction for this program is English.
During their study, students will actively use technical equipment that will help them test their theoretical knowledge in experimental setting. The educational process is based on the modular system, which allows students to choose the courses they deem necessary and beneficial for their future career from a total number of courses offered by the program.... [-]
The Aeronautical Engineering course trains the students in the design and development of structural components. The course explores new areas and creates new avenues in the field of Aircraft structural components and focuses on developing talented engineers in the new technologies and business management skills. [+]