MEng Aerospace Engineering
Course Overview
This advanced aerospace engineering course equips you with the deep technical knowledge and practical skills required to excel in the dynamic aviation sector. Delivered by leading researchers with strong industry connections, the program combines theoretical learning with hands-on projects and professional placement opportunities. The four-year MEng structure is the preferred path to becoming a Chartered Engineer, offering a more comprehensive understanding than a BEng and culminating in a specialized final-year project.
Key Program Highlights
- Direct instruction from leading aviation researchers and industry guest lecturers
- Hands-on projects integrated throughout the curriculum for real-world application
- Exclusive industry placement opportunities with major aerospace companies
- Specialized final year with tailored modules and an in-depth individual project
- MEng pathway as the preferred route to achieving Chartered Engineer status
Course Overview
This advanced aerospace engineering course equips you with the deep technical knowledge and practical skills required to excel in the dynamic aviation sector. Delivered by leading researchers with strong industry connections, the program combines theoretical learning with hands-on projects and professional placement opportunities. The four-year MEng structure is the preferred path to becoming a Chartered Engineer, offering a more comprehensive understanding than a BEng and culminating in a specialized final-year project.
Key Program Highlights
- Direct instruction from leading aviation researchers and industry guest lecturers
- Hands-on projects integrated throughout the curriculum for real-world application
- Exclusive industry placement opportunities with major aerospace companies
- Specialized final year with tailored modules and an in-depth individual project
- MEng pathway as the preferred route to achieving Chartered Engineer status
Requirements
Modules
- Aerospace Design and Materials
- Aerospace Electronic Engineering and Computing
- Aerospace Statics and Dynamics
- Aircraft Design and Performance
- Fluid Mechanics and Aircraft Aerodynamics
- Integrating Project and Maths 1
- Aerospace Design and Manufacture
- Aerospace Electrical Engineering and Applications
- Aerospace Structures and Dynamics
- Flight Dynamics and Control
- Integrating Project and Maths 2
- Thermodynamics and Aerospace Propulsion
- Individual Project
- Computer Modelling Techniques
- Professional Practice and Innovation in Aerospace Engineering
- Aerospace Aerodynamics
- Aerospace Manufacturing: Airframes and Aeroengines
- Aerospace Materials: Airframes and Aeroengines
- Aerospace Propulsion Systems
- Aerospace Structural Design and Analysis
- Avionic Systems
- Flight Dynamics
- Hybrid Electric Powertains for Aerospace
- Space and Astronautics
- Aerospace Industry Organisation
- Aerospace Group Design Project
- Additive Manufacturing and 3D printing
- Advanced Dynamics and Vibration
- Cognitive Ergonomics in Design
- Computational Fluid Dynamics
- Digital Manufacturing
- Finite Element Analysis
- Spacecraft Systems and Design
- Turbulence and Turbulent Flows
