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Mechatronics and Robotic Systems with a Year Abroad
Course details
- UCAS code: HH77
- Study mode: Full-time
- Length: 5 years
Key dates
- Starts:
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Course overview
Immerse yourself in technologies in the areas of mechanical, control and electrical engineering, electronics, and computing. Mechatronics and Robotic Systems covers everything from driverless cars and automated robots at manufacturing assembly lines, to remotely operated vehicles on Mars.
Introduction
You’ll receive a thorough grounding in a range of electrical and computer control systems. This MEng (Hons) degree programme has more depth and breadth than the BEng (Hons) programme in Mechatronics and Robotic Systems, studying core subjects, such as advanced system modelling and control, in more detail and a greater range of subjects.
We work closely with industry leaders to develop all of our programmes. Building on the core principles of electrical/electronic engineering, you will develop advanced skills in and experience with industry standard tools, technologies and working methods.
What you'll learn
- Working as part of a team to undertake major projects
- The numerous real-world applications of mechatronics and robotic systems
- Advanced skills in design and implementation
- Be prepared for the global workplace
- Different systems, technologies and cultures within the global industry.
Accreditation
Accredited by the Institution of Engineering and Technology on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.
Teaching Excellence Framework 2023
We’re proud to announce we’ve been awarded a Gold rating for educational excellence.
Course content
Discover what you'll learn, what you'll study, and how you'll be taught and assessed.
Year one
The programme detail and modules listed are illustrative only and subject to change.
Compulsory modules
Digital & Integrated Electronics Design (ELEC143)
Credits: 15 / Semester: semester 2
The module comprises of two parts Digital Electronics and Integrated Electronics. For the Digital part, students are provided with the knowledge of number systems, laws of Boolean algebra and introduced to the basic methods for designing combinational and sequential logic circuits. For the Integrated part, students are introduced to various silicon electronic devices and provided with the opportunity to understand the basic principles of silicon microelectronics designs processes including designing layouts for simple circuit.
Electrical Circuits & Systems (ELEC142)
Credits: 15 / Semester: semester 3
Fundamental course on circuit analysis techniques.
Electronic Circuits (ELEC104)
Credits: 15 / Semester: semester 3
This module aims to introduce students to fundamental electronic devices (diodes and transistors), and how these devices are used in amplifier and switching circuits. The module is assessed via two laboratory sessions (20%) and two coursework online assignments (80%).
Experimental Skills (ELEC172)
Credits: 7.5 / Semester: semester 1
Introductory module that teaches practical skills for electrical engineering students, focusing on basic laboratory skills. The practical skills are linked with theory presented in other Year 1 modules including those on analogue and digital electronics. The module also includes an introduction to a technical programming language (MATLAB) and an introduction to some of the ethical and sustainability issues that face modern engineers.
Introduction to Mechatronics (ELEC123)
Credits: 7.5 / Semester: semester 2
This module covers electromechanics, including the principles and construction of DC and AC machines, transformers and linear actuators.
Introduction to Programming in C (ELEC129)
Credits: 15 / Semester: semester 1
This module is an introductory course to the C computer programming language. The module provides a comprehensive overview of the fundamentals of C programming (variables, data types, operators, pointers, arrays, strings, structures, functions, input/output operations and flow control) and the software development method (specification, analysis, design, implementation/coding and testing).
SOLIDS AND STRUCTURES 1 (ENGG110)
Credits: 15 / Semester: semester 3
This module aims to introduce students to the fundamental concepts and theory of how engineering structures work to sustain loads. It will also show how stress analysis leads to the design of safer structures. It will also provide students with the means to analyse and design basic structural elements as used in modern engineering structures.
Mathematics A for Electrical Engineers (ELEC191)
Credits: 15 / Semester: semester 1
Mathematics for students registered in the Department of Electrical Engineering and Electronics, to support their technical modules.
Mathematics B for Electrical Engineers (ELEC192)
Credits: 15 / Semester: semester 2
Basic mathematics for students registered in the Department of Electrical Engineering and Electronics, concentrating on those groups of students who have, on the average, weaker preparation for University level Maths such as entrants with the BTEC qualification (but not limited to that group). Exam practice is another important component of this module. This module follows on from ELEC191
Year two
The programme detail and modules listed are illustrative only and subject to change.
Compulsory modules
Digital Electronics & Microprocessor Systems (ELEC211)
Credits: 15 / Semester: semester 2
This module covers two areas. In digital electronics, it covers topics which build on the basic knowledge gained in the first year digital electronics programme and learning some hardware description language (HDL) programming. In microprocessor systems, it introduces the topic from the basics describing how a microprocessor works and learning some assembly language programming.
DYNAMIC SYSTEMS (MECH215)
Credits: 15 / Semester: semester 3
Dynamic systems are encountered in most engineering disciplines such as mechanical engineering, aerospace engineering, electrical engineering. These systems require specific techniques to be analysed for design or monitoring purpose.
In this module, students will learn the main methods for analysing dynamic systems in time and frequency domains. They will learn how to solve dynamical problems, how to evaluate and control the stability, the accuracy and the rapidity of a dynamical system.
This module will be mainly delivered through class lectures and assessed through a final exam. Additionally, students will be taught some experimental techniques related to second-order dynamical systems through an assessed laboratory work.
Electrical Circuits & Power Systems (ELEC209)
Credits: 15 / Semester: semester 1
This module is aimed at equipping students with tools to analyse inter-related electrical circuits and systems and to provide students with an introduction to the components and composition of an electric power system. It also covers the different primary energy sources and the way in which power is delivered to the customers. Teaching and learning are provided through variety of means like formal lectures, problem sheets, supplementary question sheets, worked example sheets along with formative and summative online tests (through CANVAS, the electronic VLE system). Assessment is carried out by means of coursework and final (written) exam.
Electronic Circuits and Systems (ELEC271)
Credits: 15 / Semester: semester 2
The module concerns the understanding of how electronic amplifier circuits work and some basic ideas on how to design them. This requires an appreciation of linear small-signal equivalent circuits based on device physics and how to use them to assist the design process. Students will also learn how to break down complex circuits into simpler building blocks and how these blocks in turn, represented by linear equivalent circuits, can be combined to achieve the desired functionality. How negative feedback can be applied to produce high performance, stable circuits with high tolerance. The current state of the art is emphasised together with a historical perspective, noting some of the pioneers in the field.
FIELD THEORY AND PARTIAL DIFFERENTIAL EQUATIONS (MATH283)
Credits: 7.5 / Semester: semester 1
(This module is for those EEE students who have not studied at XJTLU).
Maxwell’s equations elegantly describe the physical laws governing such things as electrodynamics. Related problems may be posed in terms of vector calculus, or in terms of differential equations. In this module, we revise vector calculus and field theory in three dimensions, using Stokes’ theorem and Gauss’ theorem to solve explicit physical problems; we evaluate path, surface and volume integrals, and derive general electrodynamic laws. We also consider both the ordinary and partial differential equations arising from real world problems related to Maxwell’s equations, and solve them using Fourier series methods.
Instrumentation & Control (ELEC207)
Credits: 15 / Semester: semester 3
This module covers the design and operation of instrumentation devices as well as the design of continuous time control systems.
Project, Problem Solving & Industrial Awareness (ELEC222)
Credits: 7.5 / Semester: semester 3
The aim of this module is to provide students with practical work which underpins, confirms and gives application focus for academic study, while testing a wide range of skills.
Signals and Systems (ELEC270)
Credits: 15 / Semester: semester 1
Introduces continuous and discrete signal operations and analysis, the frequency domain and spectral analysis, including Fourier Series and Fourier, Laplace and z Transforms. Introduces system quantification and analysis, including pole-zero plots, feedback, basic stability criteria and block diagrams.
Robotic Systems (ELEC230)
Credits: 15 / Semester: semester 3
This module aims to give students an understanding of the basic knowledge required to develop a mobile robot system. Initially they will be taught the features of Linux and how to program using the Object-Oriented approach with C++, along with aspects of sensors and actuators for mobile robots. Subsequently students will be taught the key features of ROS for simulation and then use ROS to explore aspects of development of a mobile robot system.
Year abroad (Year three)
You are required to spend the year abroad on an approved placement at a European or overseas partner institution.
Year four
You study both compulsory modules and options chosen from a list of advanced topics. In addition, an extended individual project is undertaken, linked to the needs of an industrial partner.
Compulsory modules
Digital Control and Optimisation (ELEC303)
Credits: 15 / Semester: semester 2
A broad range of topics are covered. Case studies and example tutorials emphasise the practical aspects of digital control design and optimisation.
Drives (ELEC331)
Credits: 7.5 / Semester: semester 1
This module introduces students to a range of electrical machines (AC & DC) using the concepts of rotating magnetic fields and co-energy. This allow students to model their behaviour and select the most appropriate electrical machine for their application.
Low Power Computer Architecture (ELEC370)
Credits: 15 / Semester: semester 1
In this module students gain an understanding of the architecture and operation of embedded computer systems and their components. Furthermore, they gain an understanding of how computer performance is dependent upon the design of computer architectures and sub-circuits.
Engineering Management & Entrepreneurial Skills (ELEC352)
Credits: 7.5 / Semester: semester 1
This module covers project management for year 3 students registered in the Department of Electrical Engineering and Electronics. Entrepreneurial skills are also be covered.
MEng Project (ELEC440)
Credits: 30 / Semester: semester 3
Individual project for MEng students
Robotic Systems II (ELEC330)
Credits: 15 / Semester: semester 3
The purpose of this module is to provide an introduction to robotics applications, cover basics of modelling, design, planning anc control of robot systems.
Topics include forward and inverse kinematics, velocity kinematics, dynamics, actuators and drive systems, robot mechnisms, trajectory planning, sensing and machine vision.
Image Processing (ELEC319)
Credits: 7.5 / Semester: semester 1
This module covers the fundamentals of how images are generated, represented, compressed and processed to extract features of interest.
Neural Networks (ELEC320)
Credits: 7.5 / Semester: semester 2
Introduction to neural network theory, applications and artificial intelligence.
Optional modules
ADVANCED MODERN MANAGEMENT (MNGT352)
Credits: 7.5 / Semester: semester 1
The Aims of this module are as follows:
To introduce the student to various aspects of advanced modern management.
To develop a knowledge and understanding of modern management tools.
To stimulate an appreciation of management and its importance in organisational success.
Application Development with C++ (ELEC362)
Credits: 15 / Semester: semester 1
This course will help student to understand the object-oriented design concept and to gain knowledge and practical skills of C++ as an advanced programming language.
On successful completion of the module, students should be able to understand/design/develop C++ applications (both console and GUI-based) with a specific emphasis on developing GUI-based applications.
Electronics for Instrumentation & Communications (ELEC317)
Credits: 15 / Semester: semester 2
The module introduces basic concepts of the electronic circuits required for instrumentation and communication. It deals with a wide range of amplifiers and the problems that might be encountered in a actual application. It also deals with circuitry needed in communication for example oscillators and phase-locked-loops.
Photonics and Optical Information Systems (ELEC313)
Credits: 15 / Semester: semester 1
The aims of this module are: To introduce students to the fundamental principles of opto/electronic systems for the transfer of information. To introduce the duality of light as both wave and ray. To show intensity and phase related optical principles. To demonstrate optical information transfer through a number of applications.
Signal Processing and Digital Filtering (ELEC309)
Credits: 15 / Semester: semester 2
This module is aimed at developing the basic framework for signal processing and to demonstrate its applications. Also, the module provides students with a good understanding of the types, behaviours and design of FIR and IIR digital filters.
Teaching and learning are provided through a variety of means like formal lectures, problem sheets, supplementary questions, along with formative and summative online tests (through CANVAS, the electronic VLE system).
Assessment is carried out by means of two assignments and final (written) exam.
Power Systems and Power Electronics (ELEC301)
Credits: 15 / Semester: semester 1
A core module of electrical engineering for delivering fundamental principles of power systems: including electricity generation, transmission and distribution, and power electronics for conversion of electricity with different frequency and magnitude.
Plasma System Engineering (ELEC391)
Credits: 7.5 / Semester: semester 1
The module introduces to the students the basic concepts of electrical plasmas and how they are used in industry. It concentrates on the engineering principles behind plasma technology rather than the physics of the discharge, however some mathematical approaches are explored so that quantification of the action of plasmas upon material surfaces can be made. The module explains how a gas can turn into a plasma and how high energy ions in the plasma can be generated to process a substrate, such as silicon wafer in micro-electronics fabrication. The module is taught by a mixture of power points notes and chalk and talk. There are a number of question sheets given out to help the students understand the basis plasma-material processes. On completion, students will understand how plasmas are used in industry, they will have an appreciation of some aspects of simple design and how plasmas can be configured for the next generation of fusion power stations.
Year five
During this year, students continue compulsory modules, choose further options and undertake an extended group project. A recent project involved controlling a robot to navigate through a maze – each project with an advanced technical element is linked to a research group programme that is also supported by industry.
Compulsory modules
Digital System Design (ELEC473)
Credits: 15 / Semester: semester 3
This module introduces students to the digital design techniques used in industry and research. The methods for describing digital systems using the Verilog Hardware Description Language (HDL) are introduced. Students will examine the operation of the MIPS Processor and will also be introduced to Altera’s NIOS-II Processor. The module is assessed via four assignments and two class tests. Altera’s Quartus package is used for sythesising the digital systems.
MANAGEMENT OF DESIGN (MNGT413)
Credits: 7.5 / Semester: semester 2
To enable students to develop a general understanding of a wide range of aspects of the design function in a manufacturing company and its management, and in particular a comprehensive understanding of the Design Process. The core of the module is a detailed study of a six-phase model of the Design Process derived from several authors and BS7000: Product Planning and Feasibility; Design Specification; Conceptual Design; Embodiment Design; Detail Design; Post-Design-Release.
MEng Group Project (EEE) (ELEC450)
Credits: 30 / Semester: semester 3
Final Group Project for MEng students
Microprocessor Systems (ELEC422)
Credits: 15 / Semester: semester 2
This module will cover three aspects of ARM Cortex M Microprocessors.
The general functionality of the Cortex M series will be introduced along with the Instruction Set Architecture (ISA) Assignment one will be based on Assembly Language Programming.
The internal bus operation of the AHB-Lite interface will be introduced. For Assignment two students will be expected to interface a peripheral to the AHB-Lite bus using a Cortex-M0 soft core. The peripheral and the interface will be coded using Verilog. They will then be required to write a program to verify the operation of their peripheral3. The final aspect will be on using Real-Time operating systems. This will include how synchronisation, communication and resource sharing is implemented using the RTX real-time operating system.
The third and final assignment will be on using RTX to implement a multi-threaded papplication.
Advanced Systems Modelling & Control (ELEC476)
Credits: 15 / Semester: semester 1
This module will provide advanced modeling, simulation and control techniques and to develop student’s skill of considering engineering problem in a system point of view.
INDUSTRIAL ROBOTICS AND AUTOMATED ASSEMBLY (MNFG409)
Credits: 15 / Semester: semester 2
This module investigates how industrial robots and other equipment are used and integrated into more complex automated systems. The module emphasis is upon the application and use of these systems, with less emphasis on the underlying theoretical mechanisms. The module is based in the concept of learning through doing, the underlying content being presented as videos, while the contact time is used in practical sessions using industrial robots and in the development of robotic systems using industrial simulation software. The assessments are designed to help reinforce understanding rather than short term memory. As an FHEQ level 7 module the tasks and assessments are designed to develop deeper knowledge and skill in application than that expected for those at FHEQ level 6.
Optional modules
Advanced Signal Processing (ELEC474)
Credits: 15 / Semester: semester 3
The module will teach students advanced techniques of signal processing.
Communications Networks (ELEC461)
Credits: 15 / Semester: semester 2
This module introduces the principles of communications networks, thier components and protocols.
Students are provided with basic concepts about network architectures, the reference models used to describe them, the major protocols used at each communications layer, and the tools to analyse the performance of link layer, median access control, Network and Transport layer protocols.
The main protocols for routing packets over the Internet are also introduced, along with an overview of the packet switching architectures used in the core of today’s routers.
Renewable Energy & Smart Grid (ELEC435)
Credits: 15 / Semester: semester 2
Core module for MSc Energy and Power Systems about knowledge of renewable energy source, energy conversion, smart grid and micro grid
High Voltage Engineering (ELEC407)
Credits: 15 / Semester: semester 2
This is an advanced, research led course on high-voltage engineering and electrical insulation. It covers the theories, principles and test methods in relation to the operation of power network and electrical apparatuses. In addition to standard lectures students will be given opportunities to visit the high power test laboratory in the Department which is unique among UK universities and a transmission/distribution substation to equip them with first-hand experience in high voltage testing and power delivery.
Information Theory and Coding (ELEC415)
Credits: 7.5 / Semester: semester 2
This module is aimed to provide an extensive overview of the information theory and coding. Different source codes and channel codes are discussed. Cryptography is also covered.
Measurement, Monitoring and Sensors (ELEC421)
Credits: 15 / Semester: semester 3
The module aims to provide an understanding of measurment and monitoring and the sensors that are used in power systems. It focusses on a limited number of examples in order to demonstrate the problems encountered in deploy measurement and monitoring systems.
Radio Propagation for Wireless Systems (ELEC411)
Credits: 7.5 / Semester: semester 2
This module is aimed for the students to gain a good understanding of radio propagation for wireless systems such as mobile radio and radar. The radio propagation characteristics and theories will be introduced and discussed. Radio propagation models in various medium and scenarios will also be introduced and discussed, and then applied to some systems.
Plasma System Engineering (ELEC391)
Credits: 7.5 / Semester: semester 1
The module introduces to the students the basic concepts of electrical plasmas and how they are used in industry. It concentrates on the engineering principles behind plasma technology rather than the physics of the discharge, however some mathematical approaches are explored so that quantification of the action of plasmas upon material surfaces can be made. The module explains how a gas can turn into a plasma and how high energy ions in the plasma can be generated to process a substrate, such as silicon wafer in micro-electronics fabrication. The module is taught by a mixture of power points notes and chalk and talk. There are a number of question sheets given out to help the students understand the basis plasma-material processes. On completion, students will understand how plasmas are used in industry, they will have an appreciation of some aspects of simple design and how plasmas can be configured for the next generation of fusion power stations.
Power Systems and Power Electronics (ELEC301)
Credits: 15 / Semester: semester 1
A core module of electrical engineering for delivering fundamental principles of power systems: including electricity generation, transmission and distribution, and power electronics for conversion of electricity with different frequency and magnitude.
Photonics and Optical Information Systems (ELEC313)
Credits: 15 / Semester: semester 1
The aims of this module are: To introduce students to the fundamental principles of opto/electronic systems for the transfer of information. To introduce the duality of light as both wave and ray. To show intensity and phase related optical principles. To demonstrate optical information transfer through a number of applications.
Application Development with C++ (ELEC362)
Credits: 15 / Semester: semester 1
This course will help student to understand the object-oriented design concept and to gain knowledge and practical skills of C++ as an advanced programming language.
On successful completion of the module, students should be able to understand/design/develop C++ applications (both console and GUI-based) with a specific emphasis on developing GUI-based applications.
The Internet of Things: Architecture and Applications (ELEC423)
Credits: 15 / Semester: semester 1
This module covers two areas. An introduction to the "Internet of Things" which introduces the topic from the basics describing its evolution, its architecture and its application to real-life scenarios. Students will then develop a real IoT application which builds on the basic knowledge of embedded systems and programming, obtained in a EEE or related B.Eng degree which includes knowledge of digital electronics and microprocessor systems and the ability to programme in C.
Engineering Programming (ELEC431)
Credits: 15 / Semester: semester 1
This module gives a comprehensive coverage of two most popular programming languages, C++ and MATLAB. It aims to help students to gain an understanding of the Functional Decomposition method for program design, and practical skills of designing and coding software for engineering applications based on a problem specification.
Mobile Communications and Security (ELEC463)
Credits: 15 / Semester: semester 1
This module introduces the principles of communications networks, protocols and security mechanisms.
The major mobile and wireless communications are covered, including cellular communications and popular wireless networks including wireless local area networks (WiFi), wireless personal area networks (ZigBee), and low power wide area networks (LoRa/LoRaWAN).
Students are provided with basic concepts about network architectures, the implementation of different protocol stack layers, the major techniques used at each communications layer, the security mechanisms adopted to protect wireless transmissions.
ADVANCED MODERN MANAGEMENT (MNGT352)
Credits: 7.5 / Semester: semester 1
The Aims of this module are as follows:
To introduce the student to various aspects of advanced modern management.
To develop a knowledge and understanding of modern management tools.
To stimulate an appreciation of management and its importance in organisational success.
Signal Processing and Digital Filtering (ELEC309)
Credits: 15 / Semester: semester 2
This module is aimed at developing the basic framework for signal processing and to demonstrate its applications. Also, the module provides students with a good understanding of the types, behaviours and design of FIR and IIR digital filters.
Teaching and learning are provided through a variety of means like formal lectures, problem sheets, supplementary questions, along with formative and summative online tests (through CANVAS, the electronic VLE system).
Assessment is carried out by means of two assignments and final (written) exam.
Electronics for Instrumentation & Communications (ELEC317)
Credits: 15 / Semester: semester 2
The module introduces basic concepts of the electronic circuits required for instrumentation and communication. It deals with a wide range of amplifiers and the problems that might be encountered in a actual application. It also deals with circuitry needed in communication for example oscillators and phase-locked-loops.
How you'll learn
All programmes are taught over two semesters with examinations at the end of each semester. Modules vary from those which are assessed by examination only to others which are continuous assessment only. All programmes incorporate a substantial practical component, with an increasing emphasis on project work as you progress through to the final year. You can select your final year individual project in consultation with members of staff.
How you're assessed
Assessment is carried out through a mixture of exams, coursework and projects.
Liverpool Hallmarks
We have a distinctive approach to education, the Liverpool Curriculum Framework, which focuses on research-connected teaching, active learning, and authentic assessment to ensure our students graduate as digitally fluent and confident global citizens.
Course options
Studying with us means you can tailor your degree to suit you. Here's what is available on this course.
Your experience
We are housed in an award-winning building, and the Sir Robin Saxby Laboratories are equipped with state-of-the-art facilities for digital systems. All of our lecturers are actively engaged in research, ensuring students are given the most up-to-date and commercially relevant education. Students also have access to careers education and opportunities to work, as well as excellent library facilities.
Video
Inside Electrical Engineering and Electronics: A conversation with Dr Kirsty McKay and Dr Ian Sandall
Virtual tour
Supporting your learning
From arrival to alumni, we’re with you all the way:
- Careers and employability support, including help with career planning, understanding the job market and strengthening your networking skills
- A dedicated student services team can help you get assistance with your studies, help with health and wellbeing, and access to financial advice
- Confidential counselling and support to help students with personal problems affecting their studies and general wellbeing
- Support for students with differing needs from the Disability advice and guidance team. They can identify and recommend appropriate support provisions for you.
Chat with our students
Want to find out more about student life?
Chat with our student ambassadors and ask any questions you have.
Watch our Vlog
A day in the life of Electrical Engineering and Electronics student Manon Sowerby
Careers and employability
There is a high demand for engineers with experience in mechatronics and robotic systems in a number of industries. For example, there are numerous automotive applications, with modern high-performance cars having more than 100 computers hidden within their systems.
Some of our graduates go on to work in the industrial sector, in government and in education, whilst others enter non-technical professions such as banking, accountancy, management and law.
Recent employers include companies from the following industries:
- Technology/electronics: ARM Holdings Ltd, Ericsson Ltd, Marconi, Deva Electronic Controls, Siemens UK, Logica CMG
- Energy/utilities: Energetix Group PLC, Scottish Power, United Utilities PLC
- Research/science: Daresbury Laboratory, Science and Technology Facilities Council, Ministry of Defence, Royal Liverpool University Hospital (Clinical Engineering)
- Engineering and manufacturing: Heap and Partners Ltd, Siemens UK, The Highways Agency, British Nuclear Group.
Fees and funding
Your tuition fees, funding your studies, and other costs to consider.
Tuition fees
UK fees (applies to Channel Islands, Isle of Man and Republic of Ireland) | |
---|---|
Full-time place, per year | £9,250 |
Year in industry fee | £1,850 |
Year abroad fee | £1,385 |
International fees | |
---|---|
Full-time place, per year | £27,200 |
Year abroad fee | £13,600 |
Tuition fees cover the cost of your teaching and assessment, operating facilities such as libraries, IT equipment, and access to academic and personal support. Learn more about paying for your studies..
Additional costs
We understand that budgeting for your time at university is important, and we want to make sure you understand any course-related costs that are not covered by your tuition fee. This may include a laptop, books, or stationery. All safety equipment, other than boots, is provided free of charge by the department.
Find out more about the additional study costs that may apply to this course.
Scholarships and bursaries
We offer a range of scholarships and bursaries to provide tuition fee discounts and help with living expenses while at university.
Check out our Liverpool Bursary, worth up to £2,000 per year for eligible UK students. Or for international students, our Undergraduate Global Advancement Scholarship offers a tuition fee discount of up to £5,000 for eligible international students starting an undergraduate degree from September 2024.
Discover our full range of undergraduate scholarships and bursaries
Entry requirements
The qualifications and exam results you'll need to apply for this course.
We've set the country or region your qualifications are from as United Kingdom. Change it here
Clearing 2024
Please see our Clearing course information for details of the qualifications and exam results you'll need to apply for this course for 2024 entry.
View the Clearing entry requirements for this course.
English language requirements
You'll need to demonstrate competence in the use of English language, unless you’re from a majority English speaking country.
We accept a variety of international language tests and country-specific qualifications.
International applicants who do not meet the minimum required standard of English language can complete one of our Pre-Sessional English courses to achieve the required level.
English language qualification | Requirements |
---|---|
IELTS | 6.0 overall, with no component below 5.5 |
TOEFL iBT | 78 overall, with minimum scores of listening 17, writing 17, reading 17 and speaking 19 |
Duolingo English Test | 105 overall, with no component below 95 |
Pearson PTE Academic | 59 overall, with no component below 59 |
LanguageCert Academic | 65 overall, with no skill below 60 |
Cambridge IGCSE First Language English 0500 | Grade C overall, with a minimum of grade 2 in speaking and listening. Speaking and listening must be separately endorsed on the certificate. |
Cambridge IGCSE First Language English 0990 | Grade 4 overall, with Merit in speaking and listening |
Cambridge IGCSE Second Language English 0510/0511 | 0510: Grade C overall, with a minimum of grade 2 in speaking. Speaking must be separately endorsed on the certificate. 0511: Grade C overall. |
Cambridge IGCSE Second Language English 0993/0991 | 0993: Grade 5 overall, with a minimum of grade 2 in speaking. Speaking must be separately endorsed on the certificate. 0991: Grade 5 overall. |
International Baccalaureate | Standard Level grade 5 or Higher Level grade 4 in English B, English Language and Literature, or English Language |
Cambridge ESOL Level 2/3 Advanced | 169 overall, with no paper below 162 |
PRE-SESSIONAL ENGLISH
Do you need to complete a Pre-Sessional English course to meet the English language requirements for this course?
The length of Pre-Sessional English course you’ll need to take depends on your current level of English language ability.
Find out the length of Pre-Sessional English course you may require for this degree.
Contact us
Have a question about this course or studying with us? Our dedicated enquiries team can help.
Last updated 27 June 2024 / / Programme terms and conditions