MEng General Engineering with Year in Industry
Course Overview
This General Engineering degree provides a uniquely broad and interdisciplinary education, preparing you for a dynamic career in modern industry and commerce. You will develop a versatile skill set across electrical, electronic, and mechanical engineering, coupled with essential management and business principles. Graduates are highly sought-after for their adaptability and ability to tackle complex problems in a wide range of professions.
Key Program Highlights
- A unified, interdisciplinary curriculum covering electrical, electronic, and mechanical engineering
- Integrated business and management modules, including project planning, finance, and marketing
- Development of professional skills in problem-solving, teamwork, and leadership
- Direct path to Chartered Engineer (CEng) status with the MEng option
- High graduate employability due to a broad skill set valued by diverse engineering employers
Course Overview
This General Engineering degree provides a uniquely broad and interdisciplinary education, preparing you for a dynamic career in modern industry and commerce. You will develop a versatile skill set across electrical, electronic, and mechanical engineering, coupled with essential management and business principles. Graduates are highly sought-after for their adaptability and ability to tackle complex problems in a wide range of professions.
Key Program Highlights
- A unified, interdisciplinary curriculum covering electrical, electronic, and mechanical engineering
- Integrated business and management modules, including project planning, finance, and marketing
- Development of professional skills in problem-solving, teamwork, and leadership
- Direct path to Chartered Engineer (CEng) status with the MEng option
- High graduate employability due to a broad skill set valued by diverse engineering employers
Requirements
Modules
- Sustainable Engineering Design
- Engineering Mathematics with programming 1
- Engineering Mathematics with programming 2
- Solid Mechanics
- Fluid Mechanics
- Thermodynamics and Heat Transfer
- Principles of Electrical Engineering
- Digital Electronics and Communications
- Integrated Engineering Design
- System Dynamics and Control
- Mechatronics
- Engineering Management and Business Simulation
- Computational Engineering Methods
- Materials and Structures
- Fluid Dynamics and Aerodynamics
- Dynamics and Vibrations
- Materials Processing
- Applied Engineering Thermodynamics
- State Variable Control
- Machine Learning for Engineers
- Sustainable Electrical Systems
- Individual Project
- Finite Element Analysis and Design
- Heat Transfer and Energy Systems
- Tribology in Engineering Design
- Rigid Body and Structural Dynamics
- Digital Control and Actuators
- Aerospace Materials and Structures
- Leadership and Project Management
- Group Project
- Fluid Instability, Transition and Turbulence
- Advanced Solid Mechanics
- Advanced Electrical Machines
- Forensic Engineering
- Spacecraft Communications
- Rotorcraft Mechanics and Control
- Spacecraft Systems Engineering
- Computational Fluid Dynamics
- Advanced Composite Materials
- Electronically Controlled Drives
- Artificial Intelligence Architectures
- Attitude and Orbit Control Systems
- Signal Processing
- Advanced Gas Turbines
