Year 1
Our first year has been designed to provide a contemporary and flexible educational model that builds upon essential engineering fundamentals to develop your broader understanding of behaviour, policy, entrepreneurship, and global perspectives and kindles the passion necessary to address the societal challenge agenda. The first year is shared across the disciplines of Aerospace Engineering, Civil Engineering, Mechanical Engineering, and Electronic, Electrical and Systems Engineering.
Electrical Engineering 1 - 20 credits
In this module, the fundamentals of electronic and electrical engineering are covered. It will begin with analogue circuits describing the fundamentals of circuit analysis and the design of analogue devices. The fundamentals of digital systems will then be covered using Boolean algebra and related techniques to analyse digital circuits up to an introduction to flip flops. Finally electrical power and machinery systems will be introduced.
Engineering Materials - 10 credits
The aim of the module is to introduce the range of materials and their key properties used in engineering in order to allow them to select the appropriate materials for a given application. The module also introduces fundamental science that determines the electrical or mechanical properties of materials, such as atomic / molecular structures. In addition students will also be introduced to software which will allow them to model the properties and behaviour of engineering materials and analyse the results of experiments.
Engineering Mathematics 1 - 20 credits
The module aims to enhance student knowledge and understanding of the mathematics used in engineering and to develop the skills of its use.
Fluid Mechanics and Energy Transfer - 20 credits
In this module, the fundamentals of fluid mechanics and energy conservation, and introduce associated engineering applications.
Integrated Design Project 1A - 10 credits
The aim of the module is to introduce students to the design process and the skills employed therein, within an engineering context.
Integrated Design Project 1B - 10 credits
The aim of the module is for students to continue the design process and the skills employed therein, within an engineering context.
Introduction to Computing for Engineers - 10 credits
The aim of this module is to introduce engineers to computers and computer programming using an important modern programming language which has applications from small embedded systems to supercomputers.
Mechanics 1 - 20 credits
In this module, the mathematics and scientific principles related to mechanics in the context and application in engineering. The module covers: general principles, the mechanical properties of material and the basic principles of analysis, all underpinned with essential mathematics. Where relevant, historical examples are embedded into the module in order to provide context for the taught material.
Year 2
The second year will include a substantial mechatronics group project encompassing electromagnetics, control and embedded computing, which unifies your learning across course modules. All modules are compulsory.
Digital Electronics and Electrical Machines - 20 credits
Engineering Mathematics 2 - 20 credits
Electronic Circuits and Devices and Electromagnetics - 20 credits
Microprocessors and Control Systems - 20 credits
Integrated Design Project 2 - 20 credits
Mechanics 2 - 20 credits
Year 3
In the later years of the degree, you will take specialist courses which define your expertise. You will also carry out an individual mechatronics research project, which will be defined in consultation with a subject expert.
Electronic Engineering - 20 credits
Integrated Design Project 3 (MEng) - 20 credits
Mechatronic Design - 20 credits
Power Electronics and Power Systems - 20 credits
Choose 40 credits of optional modules.
Example optional modules may include:
Telerobotics, Telepresence and Augmented Reality - 20 credits
Engineering Mathematics 3 - 20 credits
The Internet of Things - 20 credits
Year 4
Core modules:
Advanced Mechatronic Design Project - 20 credits
Data Mining and Machine Learning - 20 credits
Individual Engineering Project (MEng) - 40 credits
Sensing and Control for Autonomous Systems - 20 credits
Choose 20 credits of optional modules.
Example optional modules may include:
Computer and Communication Networks - 20 credits
Small Embedded Systems - 20 credits
Please note: The modules listed on the website for this programme are regularly reviewed to ensure they are up-to-date and informed by the latest research and teaching methods. Unless indicated otherwise, the modules listed for this programme are for students starting in 2023. On rare occasions, we may need to make unexpected changes to core modules; in this event we will contact offer holders as soon as possible to inform or consult them as appropriate.
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