BEng (Hons) Mechanical Engineering

at Bournemouth University

Course details
On this course you will be taught by a range of staff with relevant expertise and knowledge appropriate to the content of the unit. This will include senior academic staff, qualified professional practitioners, demonstrators, technicians and research students. You will also benefit from regular guest lectures from industry.

Contact hours and assessment
Details of the assessment methods and contact hours for each unit of the course can be found in the programme specification. 

Year 1

Core units

Engineering Design with Practice: This unit will enable you to apply key engineering tools, methodologies and strategies that are required to identify design constraints, mechanical systems and utilise analytical methods to establish an engineering design solution.
Engineering Principles A: You will develop the ability to apply a range of principles to the design of components, structures and machines and operation of mechanical systems.

Engineering Principles B: This unit will develop your application of mechanical engineering principles to generate and develop reliable solutions surrounding design and engineering problems.

Materials with Practice: This unit will provide you with the ability to identify, plan and apply skills that are necessary for the selection and specification of suitable materials and production techniques for design.

Electrical and Electronic Principles: You will be introduced to and develop an understanding of the principles required to design electrical and electronic systems within an engineering project.

Engineering Mathematics: This unit will enable you to extract and evaluate pertinent data and apply this to engineering analysis techniques in the solution of unfamiliar problems. You will gain a firm grounding in mathematical and statistical methods necessary within the engineering field.

Year 2

Core units

Manufacturing and Engineering Materials: In this unit you will develop not only understanding surrounding properties and uses of engineering materials but also the requirements of modern manufacturing for design and engineering applications.

Stress and Dynamics: You will develop a further working knowledge, understanding and application of an increased range of mechanical engineering principles relevant to the design of components, structures and machines.

Engineering Simulation: In this unit you will take part in engineering design practices and learn about new technologies for mechanical and electronic concepts. You'll become familiar with industry standard simulation technologies.

Fluids and Thermodynamics: This unit will provide you with knowledge on the principal laws and processes of engineering thermodynamics, fluid mechanics and dynamics, and also of fluids and thermodynamics equipment and processes, in order to solve real-world problems.

Management and Commercialisation: This unit will introduce students to key aspects of business and management that relate to the development and delivery of commercial value, and the issues facing business functions such as marketing, operations and finance.

Engineering Mathematics for Mechanical Systems Design: You will use mathematical and statistical methods to generate engineering solutions that meet all aspects of the problem including production, operation and maintenance. Additional experience will surround gaining proficiency in the modelling, analysis and design of mechanical systems.

Optional Placement Year

You will complete a minimum 30-week industrial work placement which can be carried out anywhere in the world. You'll get an opportunity to include a period of academic study during this time. The placement year offers a chance to gain experience and make contacts for the future.

Final Year

Engineering Project: You will develop an individual project which assesses your creative problem-solving skills in engineering design, combined with your mathematical modelling and analytical engineering skills.

Thermofluids and Energy Conversion: In this unit you will examine the relationship of heat transfer, types and the characteristics of thermofluids and refrigeration cycles, and develop solutions to a range of complex engineering processes and problems, involving heat, fluids and energy conversion.

Business Development: Approaches to strategic management and thinking will be examined to capitalise on your entrepreneurial spirit and business acumen.

Advanced Stress and Vibration: This unit will provide you with comprehensive knowledge entailing analytical design methods of structural components and structures. You will then apply this in the analysis and design of complex components and structures and predict their performance.

Computational Engineering: You will develop the ability to apply analytical methods efficiently and effectively in the analysis and design of complex components and structures, and predict their performance in service using both analytical and computer tools.

This course requires 104–120 UCAS tariff points including a minimum of two A-levels in required subjects or equivalent. Required subjects: mathematics and a science or technology subject. We are happy to consider a combination of qualifications and grades to meet the overall tariff, for example A-levels A*CC, ABC, BBB or BCC, BTECs DDM or DMM. You can use the UCAS calculator to see how your qualifications equate to UCAS tariff points.

English language requirements
If English is not your first language, you will need to provide evidence that you can understand English to a satisfactory level. English language requirements for this course are normally:

For September 2022 and September 2023 entry: IELTS (Academic) 6.0 with minimum 5.5 in each component, or equivalent.

If you do not meet the English language requirement for your degree then why not join our Pre-Sessional English course? Successful completion of our Pre-Sessional English course will meet your English language requirement.

All fees are quoted in pounds sterling and are per year. Your tuition fees will be the same for each year of your course.You can find full information about funding your studies and paying your fees in our undergraduate fees and funding section. That’s also where you’ll find information about the scholarships and bursaries on offer.

Fees quoted are for tuition only unless stated otherwise, and we’re committed to ensuring there are no hidden extra costs while you’re at university – that’s why we’re clear about what you can expect us to cover, and what your cost of living will be. You’ll also find you could benefit from a range of discounts as a student.

Additional costs
We are committed to offering you value for money and ensuring there are no hidden costs while you are studying with us, therefore we have listed below any additional costs you may incur that are not covered by your tuition fee:

• Laptops, tablets and mobile devices and any software used on personal devices. Access to a personal computer is strongly recommended for your study. If you are experiencing financial difficulty, visit our website for information regarding hardship funds
• Accommodation and living costs. Our accommodation price guide can be found on our website 
• Travel costs for optional field trips, outdoor wear and footwear for mandatory and optional field trips (if applicable)
• Travel costs to and from the University campus. An annual bus pass can be purchased alongside your rent if you are living in halls of residence/Unilet accommodation or may be purchased separately 
• Textbooks, general stationery and other supplies. Our award-winning library is stocked with a large range of textbooks and online resources, free of charge. The Students’ Union shops stock a wide range of stationery supplies on both campuses
• Travel costs to and from your placement (both in the UK and overseas) if this is part of your course of study. Placement year funding information can be found on our website
• Clothing or equipment costs required for your placement if this is part of your course of study
• Sport BU membership.

Engineers are constantly in demand and this course will give you all the skills and knowledge you'll need to do well in this varied and fascinating sector. When you graduate, you'll be equipped to take on a range of engineering roles across the manufacturing and engineering sectors.