Aerospace Engineering in Aerospace Vehicles 48 months Undergraduate Program By Universidad Rey Juan Carlos |Top Universities

Aerospace Engineering in Aerospace Vehicles

Program Duration

48 monthsProgram duration

Tuitionfee

30,900 EURTuition Fee/year

Scholarship

YesScholarships

Main Subject Area

Engineering - AeronauticalMain Subject Area

Program overview

Main Subject

Engineering - Aeronautical

Degree

Other

Study Level

Undergraduate

Study Mode

On Campus

What knowledge will I acquire with this Degree?
BASIC TRAINING
1. Knowledge of: linear algebra; geometry; calculation; numerical methods; statistics and optimization; general laws of mechanics, thermodynamics; electromagnetism; general chemistry.
2. Basic knowledge of the use and programming of computers, operating systems, databases and computer programs.
3. Knowledge of graphic representation techniques.
4. Adequate knowledge of the concept of company, institutional and legal framework of the company.
COMMON TO THE AERONAUTICAL BRANCH
1. Appropriate and applied knowledge of the structures before the solicitations in service conditions and limit situations.
2. Appropriate and applied knowledge of the thermodynamic cycles that generate mechanical power and thrust.
3. Adequate and applied knowledge of aerodynamic forces.
4. Appropriate and applied knowledge of technological benefits, techniques for optimizing materials and modifying their properties through treatments.
5. Appropriate and applied knowledge of manufacturing processes.
6. Appropriate and applied knowledge of the principles of continuum mechanics and the techniques for calculating its response.
7. Appropriate and applied knowledge of the concepts and laws that govern the processes of energy transfer, the movement of fluids, the mechanisms of heat transmission and the change of matter and their role in the analysis of the main propulsion systems aerospace.
8. Appropriate and applied knowledge of the fundamental elements of the various types of aircraft.
9. Adequate and applied knowledge of the fundamentals of the basic principles of flight control and automation.
10. Applied knowledge of materials science and technology; mechanics and thermodynamics; fluid mechanics; aerodynamics and mechanics of flight; aerospace technology; structure theory; economy and production; Projects; environmental impact.
SPECIFIC TECHNOLOGY: AIRCRAFT
1. Appropriate and applied knowledge of fracture mechanics, fatigue and aeroelasticity.
2. Appropriate and applied knowledge of the fundamentals of sustainability, maintainability and operability of aerospace vehicles.
3. Adequate and applied knowledge of the fundamentals of fluid mechanics that describe the flow in all regimes.
4. Appropriate and applied knowledge of the physical phenomena of flight, its qualities and control, aerodynamic and propulsive forces, actions, stability.
5. Appropriate and applied knowledge of aircraft systems and automatic flight control systems of aerospace vehicles.
6. Appropriate and applied knowledge of aeronautical design and project calculation methods; the use of aerodynamic experimentation and of the most significant parameters in the theoretical application; handling of experimental techniques; the simulation; aircraft maintenance and certification systems.
7. Applied knowledge of aerodynamics; mechanics and thermodynamics, flight mechanics, aircraft engineering (fixed wing and rotary wings), structure theory.

Program overview

Main Subject

Engineering - Aeronautical

Degree

Other

Study Level

Undergraduate

Study Mode

On Campus

What knowledge will I acquire with this Degree?
BASIC TRAINING
1. Knowledge of: linear algebra; geometry; calculation; numerical methods; statistics and optimization; general laws of mechanics, thermodynamics; electromagnetism; general chemistry.
2. Basic knowledge of the use and programming of computers, operating systems, databases and computer programs.
3. Knowledge of graphic representation techniques.
4. Adequate knowledge of the concept of company, institutional and legal framework of the company.
COMMON TO THE AERONAUTICAL BRANCH
1. Appropriate and applied knowledge of the structures before the solicitations in service conditions and limit situations.
2. Appropriate and applied knowledge of the thermodynamic cycles that generate mechanical power and thrust.
3. Adequate and applied knowledge of aerodynamic forces.
4. Appropriate and applied knowledge of technological benefits, techniques for optimizing materials and modifying their properties through treatments.
5. Appropriate and applied knowledge of manufacturing processes.
6. Appropriate and applied knowledge of the principles of continuum mechanics and the techniques for calculating its response.
7. Appropriate and applied knowledge of the concepts and laws that govern the processes of energy transfer, the movement of fluids, the mechanisms of heat transmission and the change of matter and their role in the analysis of the main propulsion systems aerospace.
8. Appropriate and applied knowledge of the fundamental elements of the various types of aircraft.
9. Adequate and applied knowledge of the fundamentals of the basic principles of flight control and automation.
10. Applied knowledge of materials science and technology; mechanics and thermodynamics; fluid mechanics; aerodynamics and mechanics of flight; aerospace technology; structure theory; economy and production; Projects; environmental impact.
SPECIFIC TECHNOLOGY: AIRCRAFT
1. Appropriate and applied knowledge of fracture mechanics, fatigue and aeroelasticity.
2. Appropriate and applied knowledge of the fundamentals of sustainability, maintainability and operability of aerospace vehicles.
3. Adequate and applied knowledge of the fundamentals of fluid mechanics that describe the flow in all regimes.
4. Appropriate and applied knowledge of the physical phenomena of flight, its qualities and control, aerodynamic and propulsive forces, actions, stability.
5. Appropriate and applied knowledge of aircraft systems and automatic flight control systems of aerospace vehicles.
6. Appropriate and applied knowledge of aeronautical design and project calculation methods; the use of aerodynamic experimentation and of the most significant parameters in the theoretical application; handling of experimental techniques; the simulation; aircraft maintenance and certification systems.
7. Applied knowledge of aerodynamics; mechanics and thermodynamics, flight mechanics, aircraft engineering (fixed wing and rotary wings), structure theory.

Admission requirements

5.5+
72+
59+
The documentation must be attached electronically. During the academic year, the physical presentation of the documentation that cannot be verified as digitally valid will be requested.
4 Years
Sep

Tuition fee and scholarships

Domestic Students

5,900 EUR
-

International Students

30,900 EUR
-

One of the important factors when considering a master's degree is the cost of study. Luckily, there are many options available to help students fund their master's programme. Download your copy of the Scholarship Guide to find out which scholarships from around the world could be available to you, and how to apply for them.

In this guide you will find:
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Where to look for scholarship opportunities

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How to apply to scholarships relevant to you

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A list of available scholarships around the world

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More programs from the university

64 undergraduate degrees are taught at the Universidad Rey Juan Carlos across its four campuses. Subjects available to study include:

  • Computer Science
  • Chemical engineering
  • Medicine
  • Law
  • Business Administration and Management
  • Accounting and Finance

Biology

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Medicine

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Nursing

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Odontology

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Pharmacy

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Physiotherapy

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Psychology

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Biology

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Dentistry

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Economics

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Economy + History

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Economy + Maths

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History

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History + Tourism

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Landscaping

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Law

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Philosophy

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PostgraduateTo study at postgraduate level, you must have either a degree obtained from a Spanish university or an equivalent qualification. Applicants from within the European Higher Education Area must present the following documents:

  • Passport or equivalent identity document
  • Official academic certificate
  • University degree

Applicants from outside of the European Higher Education Area must also provide a certificate proving their previous studies qualify them for postgraduate study in their own country. This should be provided by the university you originally studied at.

Architecture

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Artificial Vision

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Bioethics

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Critical Care

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Entrepreneurs

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Performing Arts

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Senior Management

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Undergrad programs 1517