This degree encompasses the disciplines of material sciences, thermodynamics, solid and fluid mechanics and robotics. Accredited by the Institution of Mechanical Engineers, it is your quickest way to achieve Chartered Engineer status.
You’ll develop the skills and expertise to design and build advanced machines, such as:
- driverless cars
- high-speed trains
- robotic manufacturing systems
- tidal power stations
- solar-powered generators.
A fourth year at master’s level prepares you for professional practice through an in-depth individual design project and a focus on business and management.
- Apply your interest in science and mathematics to solve engineering challenges and develop innovative solutions
- Learn from academic staff from our active Research Centres, supported by specialist professionals from industry
- Study in specialist facilities including our flight deck, motion simulators, wind tunnels, optical compressors, formula car simulator and more
- Boost your employability with a work placement – past hosts have included TfL, Nissan, Interserve, AECOM and Network Rail
- Benefit from our industry connections and outstanding reputation from 120 years of engineering teaching.
Our degrees are accredited by the Institution of Mechanical Engineers, providing a path for graduates to gain CEng status.
During your four years of study, you will learn from practising engineers and research-active academics.
Build a firm foundation in mathematics, engineering, physics, electronics and computing, with our shared engineering first year.
Mathematics I (20 credits)
This module is intended to support the teaching of engineering modules throughout the programme and to enhance your analytical skills.
Engineering Science (20 credits)
Provides knowledge and understanding of the fundamental aspects of physical sciences which underpin engineering.
Fluid Mechanics and Thermodynamics I (20 credits)
Fundamentals of fluid mechanics and thermodynamics, which are essential for all engineering disciplines.
Solid Mechanics (20 credits)
This module provides an understanding of stress and deformation due to external loads is essential to the design of the structural elements of engineering systems.
Electronics (20 credits)
Introduction to the fundamental concepts, principles and analysis techniques of electrical circuits to enable higher level study on analogue and digital electronics.
Design I (20 credits)
Introduction to the skills, processes and methods required and to develop your understanding through design projects, which include designing, building and testing.
Personal & Professional Development (5 credits)
You will be set a number of tasks and activities around your main programme of study, which will be monitored, evaluated and discussed with you by your personal tutor.
Specialise in mechanical engineering with modules including fluid mechanics and thermodynamics, structural mechanics, and measurement and data. Complete your first mechanical engineering group design project.
Mathematics II (20 credits)
A continuation and expansion of Mathematics 1 and also introduces numerical techniques through the use of MATLAB.
Fluid Mechanics and Thermodynamics II (20 credits)
Introduce and develop beyond the fundamental principles methods covered in ET1070module in knowledge and understanding of fluid dynamics, thermodynamics and energy losses in pipe network systems.
Structural Mechanics (20 credits)
This module introduces methods for the elastic and plastic analysis of statically indeterminate structures and structural components subject to a variety of static loads.
Mechatronics (20 credits)
This module emphasises an integrated approach to the design of these systems based on elements of Mechanical, Electrical and Computer Engineering.
Measurement and Data Analysis (20 credits)
Learn the principles of sensing, measurement, signal conditioning, and statistical analysis of measurement data.
Design II: Mechanical (20 credits)
This module emphasises on the entire design process from conception to manufacture, including manufacturing constraints, professional CAD systems and introduces business and marketing concepts.
Deepen your expertise in mechanical design with modules including mechatronics and control, structural analysis and engineering management. Complete a second group design and independent design projects.
Analysis of Structures and Materials (20 credits)
This module offers the opportunity for you to learn and apply methodologies for structural analysis and materials selection for efficient design of engineering structures.
Fluid Mechanics & Heat Transfer (20 credits)
Introduction to simplified physical models; able to deliver significant information when dealing with the transport of mass, momentum and heat.
Mechatronics and Control (20 credits)
This module will aim to cover various systems installed on large commercial transport vehicles.
Engineering Management, Reliability and (20 credits)
This module will aim to cover various mechanical systems installed on large commercial system like an air transport aircraft.
Individual Project and Design (40 credits)
Be involved in a realistic project in the practice of engineering at a professional level.
Transition from academic study to professional practice with a significant engineering design project. Choose from: European Global Product Design (EGPR), Formula Student, Aircraft Design Project or Gas Turbine project.
Advanced Heat Transfer (20 credits)
The basic principles of conduction, convection and radiation; including the calculations of one dimentional heat transfer of conduction convection systems and methods for calculating forced and natural convection heat transger coefficient.
Advanced Structural (20 credits)
Provides you with a thorough understanding of the advanced aspects of structural mechanics and composite materials, advanced methods and approaches and develop your ability in application of these skills.
Design IV: Mechanical (40 credits)
This module consists of a design project which exploits the engineering knowledge and skills you have gained over the three previous years while challenging them with an unfamiliar problem.
Advanced CFD (20 credits)
Provides a broad understanding of how CFD (Computational Fluid Dynamics) is used in industry today.
Gas Turbine Engineering (20 credits)
Learn about the evolution of the design of the gas turbine engine and its components that leads to the various configurations used for land based and aircraft applications.
Vehicle Propulsion (20 credits)
Understanding engine operation; the history of development of internal combustion engines and recent developments.
Robotics Imaging and (20 credits)
Basic principles of image processing and computer vision and the scientific and practical aspects of classical and modern robotics.
MEngIndividual Project (Stage 4) (20 credits)
The research project provides you with an opportunity to apply the knowledge and skills acquired during the Stage 3 Individual Project to investigate your chosen area of interest in greater depth.
You are strongly encouraged to undertake a 12 month internship at the end of year three. Specialist advisors within the School are in regular contact with companies to assist students in finding suitable work experience.
Download course specification:
Teaching and assessment
Our approach is to encourage critical thinking and foster curiosity through both teamwork and independent study. The design exercises provide the opportunity for students to be engaged in cross-disciplinary challenges, preparing the way for tackling larger problems that span traditional engineering boundaries.
The course is led by academic staff from our active Research Centres, supported by specialist professionals from industry. The course is delivered through lectures, tutorials, group design exercises, laboratory classes and engineering workshops. Learning involves a combination of theoretical, experimental and computational study.
Assessment is by coursework and examinations. Group learning and communication skills are addressed through design studies and presentations. Practical and technical skills are assessed through laboratory work, data analysis and project reports.
Grades obtained in each year count towards the final degree classification, with increasing weight given to the later years.
Percentage of the course assessed by coursework
The balance of assessment by examination, practical examination and assessment by coursework will to some extent depend on the optional modules you choose. The approximate percentage of the course assessment, based on 2018/19 entry is as follows:
Most contact hours will take the form of lectures, interactive sessions, practical workshops and small group classes, supported by a personal tutorial system. The number will decrease as you progress and you become more able to direct your own learning.
Approximate study time based on 2018/19 entry is as follows:
Fees and funding
Fees for year 2021/22
The fees indicated are for undergraduate entry in the 2021/ 22 academic year only. Fees for future years may be subject to an inflationary increase, which is normally 2%.
- Fee waivers are available for this course.
- Means tested support is available for 2021/22 entry.
Future finance loans
Future Finance offers students loans of between £2,500 and £40,000 to help cover tuition fees and living expenses. All students and courses are considered. All loans are subject to credit checks and approval for further details please visit our finance pages.
Some of our degrees may involve additional expenses which are not covered by your tuition fees. Find out more about additional expenses.
Mechanical Engineering graduates work in industries such as:
- power generation
Our recent graduates have obtained posts at:
- Aqua Energy
- Network Rail
- QA Consulting
- Jacobs Engineering Group
- Wartsila UK Ltd.
These engineers are involved in areas as diverse as:
- product development
- advanced computer-based design
- energy conservation
- engineering management.
If you want to become a Chartered Engineer – enjoying enhanced job prospects and earning potential – an integrated MEng offers the most direct route to achieving CEng status.
The School has its own dedicated placements team that provides on-hand placement and internship support and guidance for you throughout your studies.
Our team of placement specialists, the Professional Liaison Unit, has extensive experience in helping students to secure professional experience across a range of industries. The team also has longstanding relationships with an impressive and diverse range of companies spanning both large and small organisations
Students are paid while on placement and are visited by their personal tutor during this time. Following placement, students more fully appreciate the context and relevance of their university studies and gain a greater understanding of the industry they are about to join.
This valuable experience may count towards the requirements for a professional engineering qualification.
Placements are a fantastic way to gain professional experience in a relevant field as part of your degree. Undertaking a placement year could also count towards the experience requirement for a professional engineering qualification.
In recent years Mechanical Engineering students have been able to obtain placements at leading companies within their chosen field such as:
- G2 Energy
- Network Rail.
How to apply
Applications for degree courses must be made through the Universities and Colleges Admissions Service (UCAS).
If you would like to apply for this course with a professional placement option please use the following link:
You can apply through your school or college using the Apply system, which enables you to submit your application directly to the UCAS website.
You can apply to up to five universities or institutions on the form. The UCAS code for City, University of London is C60.
Please take care to enter the correct course code when applying, particularly for subjects with a Foundation year or with BEng (Hons) and MEng (Hons) or BSc (Hons) and MSci (Hons) options.
UCAS has implemented an 'invisibility of choices' policy so that, on the initial application and while you are receiving decisions, each institution can see only their entry and not those of other institutions you have chosen. This ensures that your application for a course at City is considered solely on your academic and personal qualities.
You should submit your completed application form to UCAS with a £23 application fee. If you want to apply to City, University of London only, you can make a single choice application at a reduced rate of £12.
For enquiries about the admissions process at City, please contact our Admissions Office
Complete the Admissions enquiry form
Call: +44 (0)20 7040 8716.
Telephone lines are currently open between 10am - 3pm.
If your enquiry is about admission to a particular course, please use the contact details provided on the course page.
When to apply
Your application for entry in September 2021 should arrive at UCAS between September 2020 and 29th January 2021. Applications that arrive after 29th January 2021 will be considered only at City's discretion.
Address: Universities and Colleges Admissions Service (UCAS), Rosehill, New Barn Lane, Cheltenham, Gloucestershire, GL52 3LZ
- from inside the UK 0871 468 0468
- from outside the UK +44 (0)871 468 0468
For callers with hearing difficulties:
- from inside the UK use the Text Relay service on 18001 0871 468 0468
- from outside the UK dial +44 151 494 1260 (text phone) and then ask the operator to dial 0871 468 0468.
Mechanical Engineering and Aeronautics courses benefit from recently redeveloped facilities with modern teaching lecture theatres equipped with the latest interactive AV systems.
The A320 cockpit flight simulator is a dynamic virtual learning environment, that provides more procedure trainer information and enhancing safety and efficiency to our student pilots and engineers.
City's Merlin MP520 simulator is fitted with a two-axis motion system and closed cockpit design for greater immersion and is used in the theory and study of aerodynamics and the mechanics of flight.
Our Engineering labs are equipped with state-of-the-art wind tunnels and test equipment.
This is a one-of-a-kind low-turbulence wind tunnel used for the study of laminar flows. Part of the National Wind Tunnel Facility.
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