College of Engineering - Swansea University

Bachelor in Aerospace Engineering (Year in Industry) - Grado en Ingeniería Aeroespacial

College of Engineering - Swansea University
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  • Imparte:
  • Modalidad:
    Presencial
  • Precio:
    Annual tuition fees for entry in the academic year 2015/16 are as follows:
    UK/EU £9,000
    International £15,500
  • Comienzo:
    Información no disponible
  • Lugar:
    Swansea
    Reino Unido
  • Duración:
    5 Años
  • Condiciones:
    You may be eligible for funding to help support your study. To find out about scholarships, bursaries and other funding opportunities that are available please visit the University´s scholarships and bursaries page.
  • Idioma:
    El Grado se imparte en Inglés
  • Titulación:
    MEng Aerospace Engineering (Year in Industry)

Presentación

Aerospace Engineering at Swansea University is at the forefront of the latest technology. As a student on the MEng Aerospace Engineering (with a Year in Industry) course, you will be taught by leading experts, using the latest equipment, including a state-of-the-art flight simulator.

Requisitos

The entry requirements for the MEng Aerospace Engineering (with a Year in Industry) course are:

AAB at A level (including Mathematics).

Other recommended subjects include:
Physics
Further Mathematics
Chemistry
Design Technology
IT/Computing
Biology

AAB is our standard offer for students who are studying 3 A levels, but we recognise the individual nature of each application and so the standard offer should be viewed only as a guide. In some circumstances we may make different offers or points offers where appropriate.

Or 34 at IB (preferably to include good marks in HL Mathematics).

Students studying for BTEC qualifications require DDD - DDM plus B grade at A level Mathematics. Studying A level Mathematics alongside a BTEC qualification is our strongly recommended entry pathway for those studying BTEC qualifications. Students not studying A level Mathematics, alongside their BTEC qualification, require D*DD-DDD with D in ‘Mathematics for Technicians’ and D in ‘Further Mathematics for Technicians’, plus minimum GCSE grades of B in Mathematics and 2 x B grades in Science/Engineering/Manufacturing.

Find out the entry requirements for an international student.

Students with industrial experience and qualifications will be considered on a case-by-case basis. If you have studied access or vocational qualifications, you are advised to apply for the Integrated Foundation Year.

If you are applying for Level Two (second year) entry, in order to be considered, you will need to have already covered the topics offered in Swansea at Level One (first year) in a certified qualification, with a high overall score.

Programa

Year 1 (Level 4)
HE Level 4 Degree / HECert
Compulsory Modules
Module Name
Strength of Materials
Dynamic Systems
Fluid Mechanics 1
Thermodynamics 1
Design and Laboratory Classes 1
Engineering Design 1
Engineering Mechanics
Scientific and Engineering Skills
Introduction to Materials Engineering
Engineering Analysis 1
Engineering Analysis 2
Introduction to Aerospace Engineering

Year 2 (Level 5)
HE Level 5 Degree / HEDip
Students choose 120 credits from the following:

Compulsory Modules
Module Name
Structural Mechanics IIa
Control Systems
Dynamics 1
Thermodynamics 2
Engineering Design 2
Computer Aided Engineering
Experimental Studies
Aerodynamics
Airframe Structures
Flight Mechanics
Aerospace Systems

Optional Modules
Aero Level 2 Space Stream
Choose Exactly 10 credits from the following Modules:

NOTE : Space Stream

Module Name
Rocket and Space Technology

OR
Aero Level 2 Structural/Computational Stream
Choose Exactly 10 credits from the following Modules:

NOTE : Structural/Computational Stream

Module Name
Aerospace Structural Mechanics and Materials

OR
Aero Level 2 Material/Propulsion Stream
Choose Exactly 10 credits from the following Modules:

NOTE : Material/Propulsion Stream

Module Name
Mechanical Properties of Materials

Year 3 (Level 6)
HE Level 6 Degree / Honours
Students choose 120 credits from the following:

Compulsory Modules
Module Name
Gas Dynamics
Research Project
Dynamics 2
Engineering Management
Propulsion
Aerospace Engineering Design 3
High Performance Materials and Selection

Optional Modules
Aero Level 3 Space Stream
Choose Exactly 20 credits from the following Modules:

NOTE : Space Stream. These options MUST be chosen by those on the space stream

Module Name
Satellite Systems
Space Propulsion and Power Systems

OR
Aero Level 3 Structural/Computational Stream
Choose Exactly 20 credits from the following Modules:

NOTE : Structural/Computational Stream These options MUST be chosen by those on the structural/computational stream

Module Name
Finite Element Method
Computational Aerodynamics

OR
Aero Level 3 Materials/Propulsion Stream
Choose Exactly 20 credits from the following Modules:

NOTE : Materials/Propulsion Stream. These options MUST by chosen by those on the materials/propulsion stream

Module Name
Fracture and Fatigue
Composite Materials

Year 3 (Level 6)
HE Level 6 Degree / Honours
Students choose 120 credits from the following:

Compulsory Modules
Module Name
Gas Dynamics
Research Project
Dynamics 2
Engineering Management
Propulsion
Aerospace Engineering Design 3
High Performance Materials and Selection

Optional Modules
Aero Level 3 Space Stream
Choose Exactly 20 credits from the following Modules:

NOTE : Space Stream. These options MUST be chosen by those on the space stream

Module Name
Satellite Systems
Space Propulsion and Power Systems

OR
Aero Level 3 Structural/Computational Stream
Choose Exactly 20 credits from the following Modules:

NOTE : Structural/Computational Stream These options MUST be chosen by those on the structural/computational stream

Module Name
Finite Element Method
Computational Aerodynamics

OR
Aero Level 3 Materials/Propulsion Stream
Choose Exactly 20 credits from the following Modules:

NOTE : Materials/Propulsion Stream. These options MUST by chosen by those on the materials/propulsion stream

Module Name
Fracture and Fatigue
Composite Materials

Year 4 (Level 5 YR OUT)
HE Level 5 Sandwich Year
Compulsory Modules
Module Name
Industrial Placement Year (Engineering)

Year 5 (Level 7)
HE Level 7 Degree / Advanced
Students choose 120 credits from the following:

Compulsory Modules
Module Name
Fluid-Structure Interaction
Numerical Methods for Partial Differential Equations
Entrepreneurship for Engineers
Group project
Advanced Airframe Structure
Flight Dynamics and Control
Strategic Project Planning
Advanced Aerodynamics

Optional Modules
Aerospace Level M
Choose Exactly 10 credits from the following Modules:

NOTE : Select one of six modules from Module Group 2. NB EG-M73 is incompatible with EGA301.

Module Name
Communication Skills for Research Engineers
Computational Electromagnetics
Composite Materials
Simulation Based Product Design
Structural Integrity of Aerospace Metals
Aerospace Materials Engineering

AND
Aerospace Level 4 Space & Materials/Propulsion Streams
Choose Exactly 10 credits from the following Modules:

NOTE : Space & Materials/Propulsion Streams This option MUST be chosen by those on the space and materials/propulsion streams

Module Name
Finite Element Computational Analysis

OR
Aerospace Level M Computational/Structural Stream
Choose Exactly 10 credits from the following Modules:

NOTE : Computational/Structural Stream. This option MUST be chosen by students on the computational/structural stream.

Module Name
Aerospace Materials Engineering

Salidas profesionales

Our Aerospace Engineering graduates go on to have interesting and varied careers. Our degrees provide an excellent basis for a professional career in a wide variety of aerospace and related areas.

Competencias

Our aim is for Aerospace Engineering graduates to be able to understand, evaluate and interpret data, develop arguments and make judgements based on fundamental and advanced concepts relevant to the application of engineering to the aeronautical and aerospace industries.

The comprehensive theoretical studies are complemented by group design exercises, industrial site visits and hands-on aerospace practicals.

This offers you the chance to work on current industrially related issues, in addition to laboratory work utilising our in-house wind tunnel for aerodynamics and jet engine test stand.

Practical flying experience is gained from the College’s state-of-the-art Merlin MP521X engineering flight simulator and flying lessons at a local airport. You will also cover a flight test course in aircraft performance, stability and control at a flight school in a Jetstream twin turboprop aircraft.

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