Mechanical engineering looks at how parts, machines and systems work, and how to design and analyse them.
The vital role of mechanical engineers is becoming increasingly important as society attempts to meet the great challenges facing it in the future. From addressing the demands of a growing and ageing population, to seeking new sustainable energy approaches and preserving our environment, mechanical engineers will be at the heart of delivering solutions to future global issues.
The focus of mechanical engineering on energy and design and its widespread applications within society, provides our graduates with opportunities to pursue a variety of interesting careers. Because it’s so broad, it makes an ideal undergraduate degree – providing an opportunity to learn about the full range of exciting engineering pathways without specialising too early.
You’ll build a strong foundation in fundamental engineering concepts such as fluid mechanics, design, materials and mathematical modelling, whilst being introduced to Mechanical Engineering through our ‘Explore Mechanical Engineering’ module. Modules in design and experimental practice, will help you to develop the practical workshop and laboratory-based skills necessary for all engineers, and put core programme material into perspective and to practical use.
In Year 3, you’ll be able to choose modules that fit with your own interests and skill set. This includes Designing for a Circular Economy, Robotics, Failure of Materials, Network Engineering, Heat Exchange and Recovery and Process Safety and Loss Prevention. The third-year design project will provide an opportunity for you to concentrate on your specific interests, whilst working on an industry-focused area in collaboration with the School’s world-leading researchers.
Students who choose to take the MEng degree will learn advanced modules and carry out an industry or research-linked project that focuses on solving real engineering research and design problems. Recent projects have included assessing Britain’s Olympic bobsleigh and testing a combustor from a Rolls-Royce micro-gas turbine.
Course Details - Modules
Year 1
Engineering Design
Computational Mathematical Modelling 1
Computational Mathematical Modelling 2
Materials Engineering
Experimental Design and Practice 1
Experimental Design and Practice 2
Exploring Mechanical Engineering
Fluid Mechanics and Thermodynamics
Course Details – Assessment Method
Assessment typically includes a combination of coursework, written reports, projects, presentations, group work and exams at the end of each semester
Course Details – Professional Bodies
Professional Bodies are not listed for this Course.
How to Apply
26 January This is the deadline for applications to be completed and sent for this course. If the university or college still has places available you can apply after this date, but your application is not guaranteed to be considered.
Application Codes
Course code:
H304
Institution code:
Q50
Campus Name:
Main Site
Campus code:
Points of Entry
The following entry points are available for this course:
Year 1
Entry Requirements for Advanced Entry (Year 2 and Beyond)
Entry Requirements for Advanced Entry are not listed for this Course.
International applicants
Standard Qualification Requirements
To include A level Mathematics, and either Physics or Chemistry.
Excluded subjects - General Studies and Critical Thinking.
Please note:
You will also be excepted to achieve a Pass grade in the practical endorsement for any of the following A levels - Biology, Chemistry, Physics - if taken with one of the Awarding Bodies in England.
We consider applications from students with the Access to Higher Education Diploma in a Physics and Mathematics based discipline. Entry will normally be to the BEng or BSc. The minimum academic requirement is to achieve 60 credits overall, with 45 credits at Level 3, of which 33 credits must be at Distinction and 12 credits at Merit or higher. Applications are considered on a case by case basis.
We consider applications from students offering an EPQ and may make an alternative offer to include three A levels, one grade lower than our usual requirement, along with a specific grade in the EPQ.
6,6,5 in HL subjects, To include Mathematics at HL, and either Physics or Chemistry, also at HL.
Queen Mary University of London welcomes applications from students currently studying Level 3 BTEC qualifications and will consider you for entry to the majority of our undergraduate courses. The typical entry requirements will vary according to the course you are applying for.
Some of our courses require specific subject knowledge which you may not be able to cover as part of a Level 3 BTEC qualification and we may therefore require additional Level 3 qualifications to ensure that you are suitably prepared for relevant courses. A small number of our courses do not accept BTEC qualifications for entry, either as a standalone qualification, or in combination with other qualifications at Level 3.
Information on our typical entry requirements and guidance for applying can be found at http://www.qmul.ac.uk/undergraduate/entry/btec/
If you are at all unsure about the acceptability of your BTEC qualification for entry, please contact the Admissions team for individual advice (admissions@qmul.ac.uk).
Please click the following link to find out more about qualification requirements for this course
Minimum Qualification Requirements
Minimum Further Information are not listed for this Course.
English language requirements
Test
Grade
AdditionalDetails
All applicants to QMUL must show they meet a minimum academic English language standard for admission and to be successful on the course.
Please refer to the website below for details on our English Language requirements by course and acceptable alternative qualifications. You will also find important information regarding UKVI's English requirements if you are applying as an international student who will require Tier 4 immigration permission to enter the UK.
Queen Mary University of London: English Language Requirements
