bachelor in mechanical engineering in uk

If you’re reading about bachelor in mechanical engineering in uk for the first time, it may seem overwhelming to those without previous knowledge, but you might find it fascinating. 

Learn more about mechanical engineering entry requirements, mechanical engineering colleges uk, mechanical engineering undergraduate, and bsc mechanical engineering. You’ll also find more resources related to bachelor of mechanical engineering in uk universities on infolearners.

Mechanical Engineering is an art, and don’t let anybody tell you otherwise. It takes creativity to fix and make electric cars and new robotics tech, to give you just a couple of examples. And what better place to unleash your genius than by studying Mechanical Engineering the UK?  

Both countries have great employment prospects with Mechanical Engineering graduates starting a job within 6 months after graduation. The cherry on top: both countries are English-speaking, so you won’t have to worry about language barriers.  

But if you landed on this page, you probably know that already. So, we’ll jump right to what pains you most in the process of pursuing your dream degree – the application process. You’ll soon see that it’s not as complicated as you’d think.

1. All applications start with choosing the right university

There are plenty of British and Irish universities where programmes in Mechanical Engineering are available to international students like you. But some that have applications open right now are:

  • University of the West of Scotland, in Scotland
  • Glasgow Caledonian University, in Scotland
  • University of Portsmouth, in England
  • Cranfield University, in England
  • De Montfort University, in England
  • Loughborough University, in England
  • Leeds University, in England

To select the university that’s right for you, remember to consider tuition fees, living costs, academic curricula and whether the city they’re located in fits your vision of student life.

2. Meet general admission requirements for a Master’s in Mechanical Engineering

The key and general requirement for a Master’s in Mechanical Engineering is … having graduated from a Bachelor’s. Well, it’s a bit more to it than just that. 

Ideally, universities are looking for candidates that have at least a second-class Honours degree or equivalent qualification, in Mechanical Engineering or a similar area. Other Bachelor’s specialisations accepted by universities are Physics or Mathematics.

Admission commissions would also love it if your Bachelor’s has lasted 4 years and is a Bachelor’s of Science Degree type.

If you feel like you are not the ideal candidate, do not despair. It is also possible to apply to courses in Mechanical Engineering if you have appropriate professional or industrial experience. In this way, you will earn a Postgraduate Diploma which will make you eligible for Master’s course in Mechanical Engineering.

3. Provide required documents

British and Irish universities have similar admission requirements for Mechanical Engineering degrees that last 1-2 years. The basic countdown includes:

  • CV showing relevant Engineering experience and academic background
  • Application form
  • Statement of purpose
  • GMAT, GPA or GRE scores
  • TOEFL, IELTS or other similar English tests
  • Official transcripts and Bachelor’s diploma
  • Letters of recommendation

However, when looking to apply to a Master’s in Mechanical Engineering in the UK there is a special situation you need to pay attention to. British universities also offer a type of degree that grants you a Master of Engineering (M.Eng.) diploma in diverse Engineering disciplines. This is a degree which lasts 4 years, includes both Bachelor’s and Master’s courses, and has different application requirements.

study Mechanical Engineering

4. Take the right exams required for the application

Looking at the list of application documents you probably figured out that you will need some exam certificates in order to show the admission commission you are ready for an English-taught Master’s.

English Language Exams

In order to apply to a Mechanical Engineering degree in UK, you need to have very good English skills. Consider that such a programme is very technical, and you’ll need to master all subject-related terms in English. Most universities accept the following language exams and minimum scores:

  • TOEFL iBT ® : 92
  • TOEFL®PBT: 550
  • PTE Academic: 51 – 58
  • IELTS: 6.0
  • C1 Advanced: 180

Note that these exam scores may differ from programme to programme. Be sure to check the exact score with each programme and take a course and language test, if you haven’t already.

You might be exempt from a language test if you come from an English-speaking country or if your Bachelor’s was taught in English.

GPA scores

Some universities in the UK and Ireland will require your GPA, GMAT or GRE scores. The GPA translates into Grade Point Average. Most Mechanical Engineering programmes that require your GPA require that you have a high GPA, especially during a Bachelor’s in a related subject area. Most importantly, universities care about your grades and exams in courses like Maths, Physics and Engineering Science.  

GMAT Scores

The GMAT exam measures your reasoning skills (verbal, quantitative, analytical writing and integrated reasoning). Scores range from 200 to 800, but most Mechanical Engineering programmes that require this exam only accept candidates with higher scores (over 500). So, be sure to prepare in advance if the Mechanical Engineering Master’s you are applying to requires this type of exam.

GRE Scores

The GRE test (Graduate Record Exam) is a typical exam required to apply to graduate programmes. Similar to GMAT, this exam will test your critical thinking, analytical writing, verbal reasoning, and quantitative reasoning. For each set of skills there are different measurements scales. The higher your score at each set of skills, the better your Mechanical Engineering application will look.

5. Meet other special requirements such as previous work exerience

When applying to a Master’s in Mechanical Engineering abroad, you should pay attention to three other requirements in your admission documents: work experience, preparation courses, and recommendation letters. They speak of your capacity to pursue and graduate from your programme successfully:

Previous Mechanical Engineering experience

When it comes to Master’s in Mechanical Engineering, most British programmes value more the academic experience. However, if you have relevant work experience you can still apply to a Mechanical Engineering Master’s.

For example, you can hold a Bachelor’s in Engineering and have work experience in a company that makes products based on Mechanical Engineering knowledge. Or you can hold a Bachelor’s in a non-Engineering subject, but have taken a preparation course in Mechanical Engineering and work in a mechanical engineering company.

Preparation Courses in Mechanical Engineering

When you don’t fulfil the standard entry requirements, you can always apply for Pre-Masters which will qualify you. Ideally, you should take a pre-master course at the same university you want to pursue your Master’s. 

You can also consider the following British schools that offer Mechanical Engineering Pre-Masters:

  • INTO Glasgow Caledonian University
  • INTO University of Exeter
  • ONCAMPUS Hull

6. Provide recommendation letters 

Most programmes in the UK and Ireland will require you to submit three letters of recommendation. Yes, 3. These letters should come from the professors you worked with during your Bachelor’s and should show the admission committee that they believe you will effectively pursue and graduate your Master’s studies at the new university.

In special circumstances, universities will accept that some of the letters come from your employers, if you already work in a relevant mechanical engineering field. However, at least one letter should still come from a professor.

Mechanical Engineering

The Mechanical Engineering course provides a comprehensive engineering education covering design, engineering mathematics and its application, the core concepts of mechanics, thermodynamics, structural dynamics, materials and the behaviour of fluids.

  • Institute CodeW75
  • UCAS CodeH300
  • Entry RequirementsView
  • FeesView
  • Course SpecificationsView
  • Start Date(s)19 September 2022, 17 January 2022
  • AwardBEng (Hons)
  • Study ModePart-time, Full-time
  • Course LengthPart-time (6 years), Full-time (3 years)
  • Campus LocationUniversity Telford Campus
  • School School of Engineering
  • UCAS Points Calculator

Why choose this course?

The Mechanical Engineering course provides a comprehensive engineering education covering design, engineering mathematics and its application, the core concepts of mechanics, thermodynamics, structural dynamics, materials and the behaviour of fluids. As you progress through the course, you will also cover the principles of control systems, advanced materials and manufacturing processes including Additive Layer Manufacturing (ALM)/ 3D-printing of plastics and metals.

You will use computer aided modelling, design and analysis software to validate product designs. Analysing the performance of materials and structures under in-service conditions through the use of finite element analysis and computational fluid dynamics is one highlight of the course. Accordingly, you will have the ability to use industry level FEA packages to analyse the performance of various engineering components.

What happens on the course?

 All of our degrees have a common first year, allowing you to experience a range of subjects before deciding on the course you wish to follow. You will study Mathematics, and the underlying concepts of Electrical, Mechanical, Materials, and Production Engineering. You will undertake laboratory work; and utilise your new production knowledge to build and test a design.

In the second year, you will extend your knowledge of engineering technologies and management, create design specifications, and become proficient in the use of a 3D CAD package. You will also learn the role and responsibilities of a professional engineer.

Following the second academic year, you are encouraged to undertake a placement year in industry, thereby improving your employment prospects and forming part of your record of professional development as an incorporated or chartered engineer. In your final year, you will complete an individual project, further develop your integrative approach to designing electro-mechanical systems, develop global management skills, and learn how to convert an idea into a commercial venture.

Course Modules

To ensure that students develop competence in the use of current computer aided design software and are able to apply it to appropriate system, component and assembly design problems.Engineering ExperimentationEngineering MathematicsEngineering ScienceIndustrial Design ProjectMechanical Engineering Principles

Potential Career Paths

Mechanical engineers may choose industry-based careers in research and development, design, or product development. The combination of engineering skills, design capability and management provides you with a wide range of employment opportunities in technical environments across the world. Typical examples include the co-ordination of activities related to product and process design of mechanical and electro-mechanical systems, and the management of projects in a wide range of technical environments. The course enables you to attain management positions, with significant levels of responsibility within a relatively short time. You may also study for a research degree, MPhil/PhD, with the Department. The transferable skills gained during the course, including project management, group working and analytical thinking, will also enable you to pursue careers in non-technical fields such as: law, accountancy, authoring, and computing.

Mechanical Engineering – BEng (Hons)

Mechanical Engineering BEng (Hons) summary information

  • UCAS code UCAS H310
  • Start date September 2022
  • Study mode Full-time
  • Duration 3 years
  • Location Canterbury
  • Flexible entry

Visit us in person or virtually

Our Open Days offer face-to-face and virtual options and they are a fantastic way to meet our staff and students. Join our Virtual Open Day on Thursday 13 January from 16.00 – 19.00 GMT to find out why Kent is right for you.

Engineering has shaped modern society and personal lives in a way that no other discipline has. By studying Mechanical Engineering at Kent you gain the skills to make your own mark in this exciting field. Graduates can work at the forefront of the major areas of mechanical engineering, combining theory with practical and project work, turning ideas into real systems. Will you build the product of the future?

Overview

At Kent, you study all aspects of mechanical engineering, from 3D design to advanced manufacturing, control and mechatronic to advanced robotics and fluid dynamics to thermodynamic and heat transfer, preparing you for a career in any branch of mechanical engineering.

Why study a Mechanical Engineering degree at Kent

  • £3 million redevelopment and modernisation of the Jennison Engineering and Design Hub
  • Excellent facilities including mechanical workshop, 120 seat laboratory, material testing, 3D printing and CNC, robotic kits, and a dedicated makerspace
  • Strong links with the Royal Academy of Engineering and the Institution of Mechanical Engineers (IMechE)
  • Student led societies: TinkerSoc / Kent Engineering Society
  • Guest speakers from the aerospace, automotive, transport and energy sectors
  • We have excellent industrial links, providing you with many placement opportunities.

What you’ll study

The first year of our course lays the foundation for the rest of your studies and includes modules on mechanics, CAD, materials, engineering analysis and mathematics. You complete a project to engineer a system to solve a problem using mechanics, sensors and actuators.

As you further develop your understanding of the field you gain advanced practical experience, specifically in dynamics of cars, control and mechatronics, instrumentation, fluid dynamics, advanced manufacturing and robotics and AI.

As your knowledge of mechanical engineering grows, you discover which areas particularly interest you, so that in your final year you can begin to specialise in preparation for your final-year project.

Gain invaluable paid industry experience as part of your degree course by choosing to take this course with a year in Industry.

If your grades do not qualify you for direct to this course, you may be able to take our four-year degree including a foundation year.89%Electronic and Electrical Engineering at Kent scored 89% for research intensity in The Complete University Guide 2022.

Flexible tariff

Make Kent your firm choice – The Kent Guarantee

We understand that applying for university can be stressful, especially when you are also studying for exams. Choose Kent as your firm choice on UCAS and we will guarantee you a place, even if you narrowly miss your offer (for example, by 1 A Level grade)*.

Entry requirements

If you are an international student, visit our International Student website for further information about entry requirements for your country, including details of the International Foundation Programmes. Please note that international fee-paying students who require a Student visa cannot undertake a part-time programme due to visa restrictions.

Please note that meeting the typical offer/minimum requirement does not guarantee that you will receive an offer.

English Language Requirements

Please see our English language entry requirements web page.

Please note that if you do not meet our English language requirements, we offer a number of ‘pre-sessional’ courses in English for Academic Purposes. You attend these courses before starting your degree programme.

Remember, you can withdraw your consent or opt-out from receiving any electronic marketing messages at any time. All you need to do is click the ‘unsubscribe’ link at the bottom of any of the marketing emails we send you or contact us on the details provided in our Privacy Notice.

Course structure

Duration: 3 years full-time

The following modules are indicative of those offered on this programme. This listing is based on the current curriculum and may change year to year in response to new curriculum developments and innovation.   On most programmes, you study a combination of compulsory and optional modules. You may also be able to take ‘elective’ modules from other programmes so you can customise your programme and explore other subjects that interest you.

Stage 1

Compulsory modules currently include:

EENG3230 – Engineering Design and Mechanics (15 credits)

EENG3240 – Mechanics of Materials (15 credits)

EENG3050 – Introduction to Electronics (15 credits)

EENG3110 – First Year Engineering Applications Project (15 credits)

EENG3130 – Introduction to Programming (15 credits)

EENG3150 – Digital Technologies (15 credits)

EENG3180 – Engineering Mathematics (15 credits)

EENG3190 – Engineering Analysis (15 credits)

Stage 2

Compulsory modules currently include:

EENG5170 – Control and Mechatronics (15 credits)

EENG5620 – Engineering Group Project (15 credits)

EENG5650 – Instrumentation and Measurement Systems (15 credits)

EENG5180 – Dynamics of Machines (15 credits)

EENG5190 – Introduction to Fluid Dynamics (15 credits)

EENG5200 – Failure of Materials and Structures (15 credits)

EENG5770 – Entrepreneurship and Professional Development (15 credits)

EENG5220 – Design and Manufacturing Technology (15 credits)

Stage 3

Compulsory modules currently include:

EENG6000 – Project (45 credits)

EENG6460 – Robotics and Artificial Intelligence (15 credits)

EENG6830 – Reliability, Availability, Maintainability and Safety (RAMS) (15 credits)

EENG6470 – Advanced Applications of Mechanics (15 credits)

EENG6480 – Engineering Thermodynamics and Heat Transfer (15 credits)

Optional modules:

EENG5610 – Image Analysis & Applications (15 credits)

EENG6140 – Biomaterials (15 credits)

Fees

The 2022/23 annual tuition fees for UK undergraduate courses have not yet been set by the UK Government. As a guide only the 2021/2022 fees for this course were £9,250.

  • Home full-time£9250
  • EU full-time£15900
  • International full-time£21200

For details of when and how to pay fees and charges, please see our Student Finance Guide.

For students continuing on this programme, fees will increase year on year by no more than RPI + 3% in each academic year of study except where regulated.* 

Your fee status

The University will assess your fee status as part of the application process. If you are uncertain about your fee status you may wish to seek advice from UKCISA before applying.

Additional costs

General additional costs

Find out more about accommodation and living costs, plus general additional costs that you may pay when studying at Kent.

Funding

University funding

Kent offers generous financial support schemes to assist eligible undergraduate students during their studies. See our funding page for more details. 

Government funding

You may be eligible for government finance to help pay for the costs of studying. See the Government’s student finance website.

Scholarships

General scholarships

Scholarships are available for excellence in academic performance, sport and music and are awarded on merit. For further information on the range of awards available and to make an application see our scholarships website.

The Kent Scholarship for Academic Excellence

At Kent we recognise, encourage and reward excellence. We have created the Kent Scholarship for Academic Excellence. 

The scholarship will be awarded to any applicant who achieves a minimum of AAA over three A levels, or the equivalent qualifications (including BTEC and IB) as specified on our scholarships pages. 

The scholarship is also extended to those who achieve AAB at A level (or specified equivalents) where one of the subjects is either mathematics or a modern foreign language. Please review the eligibility criteria.

We have a range of subject-specific awards and scholarships for academic, sporting and musical achievement.

Teaching and assessment

Teaching includes practical work in conventional laboratory experiments or projects, lecture modules and examples classes, which develop your problem-solving skills, and staff hold regular ‘surgeries’ where you can discuss any questions you have. Practical work is carried out in air-conditioned laboratories, with state-of-the-art equipment and outstanding IT infrastructure.

Stage 1 modules are assessed by coursework and examination at the end of the year. Stage 2 and 3 modules, with the exception of the Stage 3 project, are assessed by a combination of coursework and examination. All years include project work to replicate industrial practice and develop skills to maximise employability.

Contact hours

For a student studying full time, each academic year of the programme will comprise 1200 learning hours which include both direct contact hours and private study hours.  The precise breakdown of hours will be subject dependent and will vary according to modules.  Please refer to the individual module details under Course Structure.

Methods of assessment will vary according to subject specialism and individual modules.  Please refer to the individual module details under Course Structure.

Programme aims

The programme aims to:

  • Educate students to become mechanical engineers who are well equipped for professional careers in development, research and production in industry and universities, and who are well adapted to meet the challenges of a rapidly changing discipline.
  • Produce professional mechanical engineers with a well-balanced knowledge of mechanics, material properties, fluid dynamics, design and mechatronics.
  • Enable students to satisfy the partial educational requirements of the IMechE for Chartered Engineer (CEng) registration.

Learning outcomes

Knowledge and understanding

You gain a knowledge and understanding of:

  • Mathematical principles relevant to mechanics, material properties, fluid dynamics, and mechatronics.
  • Scientific principles and methodology relevant to mechanical engineering with an emphasis on practical applications in mechanical engineering and mechatronics.
  • Advanced concepts of mechanics, material properties, fluid dynamics, design and mechatronics, influenced by ongoing and current industrial needs and informed by internationally recognised relevant research expertise.
  • The value of intellectual property and contractual issues for professional and entrepreneurial engineers.
  • Business, management and project management techniques, seen mainly in a case study context, which may be used to achieve engineering objectives.
  • The need for a high level of professional and ethical conduct in mechanical engineering, directly applied in a case study context.
  • Current manufacturing practice with particular, example led emphasis on product safety, environmental standards and directives.
  • Characteristics of the materials, equipment, processes and products required for mechanical and mechatronic systems.
  • Appropriate codes of practice, industry standards and quality issues, directly applied in a case study context.
  • Contexts in which engineering knowledge can be applied, particularly explored in student-led project work, to solve new problems.

Intellectual skills

You gain the following intellectual skills:

  • Analysis and solution of problems in mechanical engineering using appropriate mathematical methods with a strong emphasis on engineering example based learning and assessment.
  • Ability to apply and integrate knowledge and understanding of other engineering disciplines to support study of mechanical engineering particularly through student based led practical project design.
  • Use of engineering principles and the ability to apply them to analyse key mechanical engineering processes with an emphasis on simulation and practical learning.
  • Ability to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques with an emphasis on simulation and practical learning. 
  • Ability to apply and understand a systems approach to mechanical engineering problems by top level analysis to consolidate learning of underpinning principles.
  • Ability to investigate and define a problem and identify constraints including cost drivers, economic, environmental, health and safety and risk assessment issues largely by undertaking individual and group projects work.
  • Ability to use creativity to establish innovative, aesthetic solutions whilst understanding customer and user needs, ensuring fitness for purpose of all aspects of the problem including production, operation, maintenance and disposal expressed through student led group project work and consolidated by individual project work. 
  • Ability to demonstrate the economic and environmental context of the engineering solution with an emphasis on sustainable, and professional and enterprise case studies. 

Subject-specific skills

You gain the following subject-specific skills:

  • Use of mathematical techniques to analyse problems relevant to mechanical engineering, material properties, fluid dynamics, design and mechatronics.
  • Ability to work in an engineering laboratory environment and to use a wide range of mechanical and mechatronic equipment, workshop equipment and CAD tools for the practical realisation of mechanical and mechatronic systems throughout the programme.
  • Ability to work with technical uncertainty or incomplete knowledge particularly through experimental learning in practical project design. 
  • Ability to apply quantitative methods and computer software relevant to mechanical engineering in order to solve engineering problems in analytical, simulation based, and practical engineering activities. 
  • Ability to design mechanical and mechatronic systems to fulfil a product specification and devise tests to appraise performance, consolidated by student-led individual and group project design.
  • Awareness of the nature of intellectual property and contractual issues and an understanding of appropriate codes of practice and industry standards, explored through case studies. 
  • Ability to use technical literature and other information sources and apply it to a design, largely through student-led practical project work.
  • Ability to apply management techniques to the planning, resource allocation and execution of a design project and evaluate outcomes, consolidated through student led projects.
  • Ability to prepare technical reports and give effective and appropriate presentations to a technical and non-technical audience’s.

Transferable skills

You gain the following transferable skills:

  • Ability to generate, analyse, present, interpret data and solve problems.
  • Use of Information and Communications Technology.
  • Personal and interpersonal skills, work as a member of a team
  • Communicate effectively to peers and professional engineers (in writing, verbally and through drawings).
  • Learn effectively for the purpose of continuing professional development.
  • Ability for critical thinking, reasoning, reflection and self-learning.
  • Ability to manage time and resources within an individual project and a group project.

Independent rankings

Electronic and Electrical Engineering at Kent scored 85% overall and 89% for research intensity in The Complete University Guide 2022.

For graduate prospects, Electronic and Electrical Engineering at Kent scored 85% in The Complete University Guide 2022.

Careers

Graduate destinations

Our graduates find employment in a huge range of sectors such as aerospace and automative industries, the armed forces and the Ministry of Defence, construction and building services, energy utilities, government agencies, manufacturing industries, medical engineering, oil and gas industries, process industries, the public sector, research establishments and transport including road and railways.  

Employers include:

  • Aero Engine Controls
  • BAE Systems
  • Bentley Motors
  • Bombardier
  • British Energy
  • Delphi
  • Jaguar Land Rover
  • RDDS
  • Rolls-Royce 
  • The Royal Navy

Some graduates choose to go on to postgraduate study.

Professional recognition

For over 30 years, our BEng and MEng courses in Electronic and Communications Engineering have been accredited by the Institution of Engineering and Technology (IET), which enables fast-track career progression as a professional engineer.

Accreditation will be sought from the Institution of Mechanical Engineering (IMechE).

Help finding a job

The School of Engineering holds an annual Employability and Careers Day where you can meet local and national employers and discuss career opportunities. Ongoing support is provided by the School’s dedicated Employability Officer.

The University also has a friendly Careers and Employability Service which can give you advice on how to:

  • apply for jobs
  • write a good CV
  • perform well in interviews.

Career-enhancing skills

In addition to the technical skills you acquire on this programme, you also gain key transferable skills including:

  • planning and organisation
  • leadership
  • effective communication. 

You can gain extra skills by signing up for one of our Kent Extra activities, such as learning a language or volunteering.

Apply for this course

If you are from the UK or Ireland, you must apply for this course through UCAS. If you are not from the UK or Ireland, you can choose to apply through UCAS or directly on our website.

Top Five UK Universities for Mechanical Engineering

Mechanical Engineering deals with the design, construction, and use of machines, and every year thousands of international and EU students choose to study Mechanical Engineering in the UK. It is the most popular branch of engineering, attracting twice as many applicants as other engineering subjects, and is widely regarded as a safe route towards well-paid employment.

UK universities provide state-of-the-art facilities, fantastic learning environments and world class teaching which gives graduates the boost they need to start their career. Learn more about the best mechanical engineering schools in the UK (Guardian University Guide 2022) below and, if you need help applying for a place on a highly competitive engineering course, arrange a free consultation with SI-UK London today.

Top Five UK Universities for Mechanical Engineering

1. Imperial College London

One of the most renowned universities in the world, Imperial College London’s Mechanical Engineering department is ranked as the best in the UK by the Guardian and second by the Times University Guide. Imperial work continuously with industry to ensure that their courses – and the facilities, and equipment you will learn to use – remain relevant to the profession.

  • Postgraduate course to consider: MEng Mechanical Engineering

2. University of Bath

The University of Bath Faculty of Engineering and Design has strong industry links and is widely acknowledged for its fantastic research programmes. The University offers MSc in Automotive Engineering, Engineering Design, Innovation and Technology Management, and Mechatronics and MEng courses in mechanical engineering give you advanced engineering knowledge complemented by practical and transferable skills.

  • Postgraduate course to consider: Integrated Mechanical and Electrical Engineering MEng (Hons)

3. University of Bristol

The Faculty of Engineering at the University of Bristol is a dynamic environment with around 2,500 undergraduate and 700 postgraduate students. All undergraduate Engineering courses now offer a year in industry as part of the degree and every undergraduate programme offers a year of study at a university abroad. Bristol consistently ranks in the world’s top 100 and the UK’s top 10 universities in league tables.

  • Undergraduate course to consider: Mechanical Engineering, BEng
  • Postgraduate course to consider: Mechanical and Electrical Engineering, MEng

4. University College London

Engineering at University College London is taught across ten teaching departments and an excellent student staff ratio means plenty of focused learning opportunities across a range of BSc, BEng, MSc, MRes (and more) courses at undergraduate and postgraduate taught level.

  • Undergraduate course to consider: Mechanical Engineering BEng
  • Postgraduate course to consider: Mechanical Engineering MSc

5. Solent University

Home to a diverse student community studying everything from HNDs to PhDs, Solent University in Southampton is dedicated to enabling learners of all backgrounds to become enterprising citizens and responsible leaders.

Mechanical Engineering at Solent “focuses on applied engineering principles and places a strong emphasis on employability.” An experienced team will help you grow across a varied range of modules including CAD and the Design Process, Mechanical Principles and Applied Mathematics.

  • Undergraduate course to consider: Beng (Hons) Mechanical Engineering

Study Mechanical Engineering in the UK

If you are interested in studying Mechanical Engineering in the UK, arrange a free consultation with SI-UK London today. More information can also be found with our Engineering subject guide.

Universities featured in this article:

Imperial College London
University of Bath
University College London
University of Bristol
Solent University

  My consultant was very helpful and motivating. She helped me every step of the way, even when the deadline was so close. I feel I could not have done it without her. I’d highly recommend this service to any and all of my many friends interested.  

Brishti BasuBiosciences at Coventry University

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De Montfort University, UK 

DMU Racing is De Montfort University’s Formula Student team, run by students and supported by sponsors.

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Engineering at DMU

De Montfort University is located in Leicester, UK and offers a range of Engineering courses. Our excellent facilities include:

  • Laboratories for the study of thermo-fluids, solid mechanics and dynamics with control
  • Rohde and Schwarz embedded systems laboratory for testing and modifying electronic circuits
  • Purpose-built engine test cell to measure engine performance and emissions
  • Subsonic wind tunnel and AIRFOX DISO flight simulator
  • Workshops fitted with CNC machine tools and complemented by a range of additive manufacturing technologies
  • Multidisciplinary energy laboratory

 All of our courses are designed in close consultation with industry and offer the chance to undertake a year-long placement in industry which will enhance your employability and allow you to put into practice the theory and techniques you have gained through your studies. 

Mechanical Engineering BEng (Hons) and Mechatronics BEng (Hons) are accredited by the Institute of Mechanical Engineers (IMechE).https://www.youtube.com/embed/94u8y10Cr1g?rel=0&fs=1&wmode=transparent&enablejsapi=1&origin=https%3A%2F%2Fwww.dmu.ac.uk

Courses and fees

We offer the following undergraduate and postgraduate courses in Engineering:

Undergraduate courses
Aeronautical Engineering BEng (Hons)/ MEng
Electrical and Electronic Engineering BEng (Hons)/ MEng
Energy Engineering BEng (Hons)/ MEng
Engineering Year Zero
Mechanical Engineering BEng (Hons)/ MEng
Mechatronics BEng (Hons)/ MEng


All of our undergraduate Engineering courses are three years in duration (or four years with optional placement year) and start in September.

Postgraduate courses
Aeronautical Engineering MSc
Electronic Engineering MSc
Energy Engineering MSc
Energy and Sustainable Development MSc
Energy and Sustainable Building Design MSc
Engineering Management MSc
Mechanical Engineering MSc
Mechatronics MSc

You can also study Energy and Sustainable Development MSc and Energy and Sustainable Building Design MSc via distance learning.

Work placements

Most of our courses offer you the opportunity to do a year-long placement in industry. Past students have undertaken placements with companies such as Hewlett-Packard (HP), Airbus UK and BMW.

If after arriving in the UK you subsequently add a placement to your course you will need to request a new CAS and make a visa application to extend your visa to cover your placement.

You can make the application to extend your visa in the UK and the DMU Visa Advice Team will be able to assist you with your application.

Entry criteria

Academic requirements:

Check the entry criteria for your country,  or email us at [email protected]

English language requirements:

All our engineering courses require an IELTS 6.0 with a minimum of 5.5 in each band, or equivalentIf you do not meet these requirements, you may want to consider joining a DMU pre-sessional English course before you begin your studies.

How to apply

Step 1

Download a free application form or apply using our online portal. Undergraduate students can also apply via the Universities and Colleges Admissions Service (UCAS) using the UCAS Institution Code: DEM/D26.

Step 2

Prepare the following documents: 

  • A copy of your qualifications
  • A copy of your English language certificate
  • A copy of your passport
  • 1 reference for undergraduate study/2 references for postgraduate study

Step 3

Return your application and documents to the International Admissions Office at [email protected].

Contact us

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Ready for BEng (Hons)

MECHANICAL ENGINEERING

3 yearsCourse variant:3 years

Entry for:2022UCAS Code:H303Institution code: S30UCAS Points:104 – 120Campus:Southampton City CentreView on Google MapsApply on UCASAsk a question

About the courseWhat you’ll studyFees and financeEntry requirementsWhy choose Solent

Are you fascinated by how things work? Do you find yourself thinking about how products could be improved? A degree in mechanical engineering can help you to develop these interests into valuable practical skills.

A video thumbnail of Circuit board

Solent University’s mechanical engineering programme focuses on applied engineering principles and places a strong emphasis on employability. Our experienced course team will help you to develop the range of theory based, professional and hands-on skills that employers in the industry are looking for.

The engineering academic group’s extensive network of industry contacts has provided past students with the opportunity to work on live briefs, helping them to develop analytical, problem solving, team working and business and management skills. These elements can help students develop a range of transferable skills and help to ensure they are well prepared for a professional working environment.

This course aims to provide students with the knowledge employers will require, from essential engineering concepts to mechanics, drawing, CAD and manufacturing skills. Critically, past students have been able to gain an insight into real-life engineering problems, tackling projects defined for them by our network of industry contacts.

Why choose this course?

Access to a range of high-end facilities

Strong focus on hands-on exploration

Comprehensive exploration of mechanics and manufacturing

Who is this course for?

Ideal for those looking to pursue a career in engineering in roles such as design or research engineer, mechanical design engineer or junior engineering manager, this course teaches students theoretical and practical mechanical engineering skills alongside business skills to be able to take the first step into a career in engineering.

What does this course lead to?

This course could lead to careers in a wide variety of mechanical engineering disciplines, such as aerospace, automotive engineering, design engineering, component manufacture, nano-technology, management of engineering departments or production planning. Particularly if you further your professional development and become a fully chartered engineer, you could work on anything from prosthetics and medical technology to large-scale engineering projects. Whether your preference is for research and development of new products, turning ideas into practical designs or producing final products and projects, you’ll have a huge range of career options and opportunities. Course graduates have gone on to roles including mechanical design engineer, graduate research engineer and production engineer.https://discoveruni.gov.uk/widget/10006022/BMEENF/responsive/small/en-GB/FullTime

Meet the team

The engineering team has a diverse range of research interests, which are incorporated into teaching activities and involve key aspects of the design process. The main areas of interest include manufacturing, materials and ‘Design for X’.

The University cannot guarantee any particular members of staff will teach specific aspects of the course in the future, but will endeavour to ensure the teaching team maintains their balance of experience and qualifications.

Facilities

Students benefit from a range of multifunctional workshops and labs, including a dedicated computer/CAD suite.

Specialist facilities include a production and electronics laboratory for designing, building and testing electronic circuitry; and a heat treatment laboratory containing furnaces that heat specimens and components up to 1100oC. The materials testing laboratory has large tensile testing machines, and the manufacturing laboratory features a range of advanced equipment such as a 3D printer, a rapid prototyping machine and a laser cutter.
Come to an open day

Fancy a sneak peek? Take a look around!

Clyde Marine Training Logo
  • MARINE
    ENGINEERING
    CADETSHIP
    COURSES

WHAT YOU’LL DO ONCE YOU HAVE QUALIFIED FROM ONE OF OUR MARINE ENGINEERING CADETSHIP COURSES 

Our marine engineering cadetship courses equip you with the knowledge and skills needed for life at sea as a qualified Engineering Officer in the Merchant Navy.  You’ll operate and maintain the mechanical systems such as engines, ventilation systems, navigation and communications equipment, deck fittings like cranes, hoists and landing craft. 

You’ll be ranked according to your experience and qualifications and with each grade comes more responsibilities. As an Officer Cadet at our Engineering University you will start at the bottom and work your way up: 

  • Chief Engineer – overall authority for planning engineering tasks and delegating them to staff
  • Second Engineer –day-to-day supervision of the ship’s engineering team
  • Third Engineer – assisting the Second Engineer and looking after the mechanical systems and machinery
  • Junior/Fourth Engineer – carrying out general machinery maintenance.

If this doesn’t sound like the route for you, there are other Merchant Navy careers to choose from.https://www.youtube.com/embed/JKkHboGLgQ8?autoplay=1&enablejsapi=1&wmode=opaque

marine engineering course number
QUALIFICATIONS REQUIRED FOR OUR MARINE ENGINEERING CADETSHIP COURSES
  • wyse-left-slidewyse-right-slideWHAT TO EXPECT ONCE QUALIFIEDPay and BenefitsStarter: £8,000 to £30,000Skills For LifeStudy for an internationally recognised qualificationNote: These figures are a guide provided by the government National Careers Service.Find out more.Experienced: up to £54,000Highly Experienced: up to £70,000All food and accommodation is provided at sea as well as travel to and from the shipReceive a Maritime Coastguard Agency (MCA) Certificate of CompetencyLearn how to lead people in a highly pressurised environment, understanding your role as part of a management teamGain an in-depth understanding of mechanical engineering, from the navigation and communications equipment on the bridge to the ship’s engine

Eligibility for our Marine Engineering Cadetship Courses

HNC/D

To undertake the HNC/D route you require a minimum of four qualifications including maths, English and one science based subject at the following grade level*:

GCSEs4-9
National 5sA-C
Standard Grades1-3

*Equivalent grades will be considered

The HNC/D route comprises of three years of study broken down into five phases, three of which are spent at college and two at sea.  We offer a variety of marine engineering courses to choose from.

During your college phases you will work towards gaining an HNC/D in marine engineering, and whilst on your sea phases you will complete eight months of practical experience.

Professional Diploma / Foundation Degree

If you hold at least 48 UCAS points from Highers or A-Levels including maths and/or physics, plus the qualifications indicated for the HNC/D course indicated above you could be eligible for the Professional Diploma/Foundation Degree course.

This course follows the same structure as the HNC/D route and we offer a variety of marine engineering courses to choose from.

Engineering Post Graduate

If you have previously completed a relevant engineering degree i.e. BEng Mechanical Engineering or are a time spent Engineer, you may be eligible for the Post Graduate course. This course is tailored to your own experience and qualifications but lasts approximately 18 months and usually entails 9 months of sea time plus relevant industry courses to transfer your knowledge to the maritime sector.

To apply for this course you must initially apply to an approved nautical college for a written action plan, supplying the college with copies of your award with its associated transcript. Once the written action plan is received you can then submit an application via our ‘Apply Now’ section, indicating in the additional qualifications section that you hold an engineering degree or relevant engineering experience, and a college action plan.

Further details can be found in training guidance note MIN511.

Or you can contact us to discuss in more detail.

If you meet the criteria, apply for one of our engineering cadetships today.

Mechanical Engineering courses in United Kingdom

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