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Innovate. Solve. Design.

If you are inspired by challenge, are analytical and creative in your thinking, and interested in design, technology and how these solve problems in the world around us; then our Mechanical and Civil Engineering Foundation Year may be your first step towards realising your ambitions. 

Successful completion of the foundation year will allow you to progress onto any of the following degrees:

Students that perform well during their second-year level 5 of degree study, will also have the opportunity to progress onto our MEng programmes. 

Why study a Foundation Year at Northumbria?

Undertaking the Mechanical and Civil Engineering Foundation Year will equip you with the essential skills and knowledge to develop effective, sustainable solutions and products that meet the varied needs of today’s and tomorrow’s society. You will be taught and guided by a student-oriented and well-rounded team of experienced engineering practitioners, researchers, and a knowledgeable technical support team. Equipped with dedicated lab and workshop facilities, the course seeks to provide an engaging and practical learning experience to apply engineering principles to real-world problems.

Many students who undertake the foundation year are still thinking about which sub-discipline of engineering to specialise in. The course covers mechanical, civil and automotive engineering, so you will be able to explore and challenge your preferences to make an informed decision about which degree to study upon completion of the foundation year.

Why choose Northumbria to study Mechanical and Civil Engineering?

  • First Class: Civil Engineering at Northumbria is ranked top 10 in the UK for overall Student Experience (Times Good University Guide, 2025).
  • Accreditations: our BEng and MEng courses are accredited by the Institution of Structural Engineers, the Institution of Civil Engineers, the Chartered Institution of Highways and Transportation and the Institute of Highway Engineers.
  • Research Powerhouse: Engineering is ranked 25th for research power in the UK out of 89 submissions (REF, 2021). This is a rise of 8 places compared to 2014.

 

Course Information

UCAS Code
H3M5

Level of Study
Undergraduate

Mode of Study
1 year Full Time followed by a further 3 years Full Time or 4 years with a placement (sandwich)/study abroad

Department
Mechanical and Construction Engineering, Mathematics, Physics and Electrical Engineering

Location
City Campus, Northumbria University

City
Newcastle

Start
September 2025

Fees
Fee Information

Modules
Module Information

Department / Experience Mechanical and Construction Engineering

Find out more about our department, facilities and what other students are taking part in.

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Explore our immersive 360 tours, informative subject videos, inspirational student profiles, ground-breaking research, and a range of life at university videos and articles.

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Visit an Open Day to get an insight into what it's like to study Engineering. Speak to staff and students from the course and get a tour of the facilities.

Entry Requirements 2025/26

Standard Entry

80 UCAS Tariff points

From a combination of acceptable Level 3 qualifications which may include: A-level, T Level, BTEC Diplomas/Extended Diplomas, Scottish and Irish Highers, Access to HE Diplomas, or the International Baccalaureate.

Find out how many points your qualifications are worth by using the UCAS Tariff calculator: www.ucas.com/ucas/tariff-calculator

Northumbria University is committed to supporting all individuals to achieve their ambitions. We have a range of schemes and alternative offers to make sure as many individuals as possible are given an opportunity to study at our University regardless of personal circumstances or background. To find out more, review our Northumbria Entry Requirement Essential Information page for further details www.northumbria.ac.uk/entryrequirementsinfo

Subject Requirements:

There are no specific subject requirements for this course.

GCSE Requirements:

Applicants will need Maths and English Language at minimum grade 4/C, or an equivalent.

Additional Requirements:

There are no additional requirements for this course.

International Qualifications:

We welcome applicants with a range of qualifications which may not match those shown above.

If you have qualifications from outside the UK, find out what you need by visiting www.northumbria.ac.uk/yourcountry

English Language Requirements:

International applicants should have a minimum overall IELTS (Academic) score of 5.5 with 5.5 in each component (or an approved equivalent*).

*The university accepts a large number of UK and International Qualifications in place of IELTS. You can find details of acceptable tests and the required grades in our English Language section: www.northumbria.ac.uk/englishqualifications

Fees and Funding 2025/26 Entry

UK Fee in Year 1: £9,535

* You should expect to pay tuition fees for every year of study. The University may increase fees in the second and subsequent years of your course at our discretion in line with any inflationary or other uplift, as decided by the UK Government, up to the maximum amount for fees permitted by UK law or regulation for that academic year. To give students an indication of the likely scale of any future increase, the UK government has recently suggested that increases may be linked to RPIX ( Retail Price Index excluding mortgage interest payments)


International Fee in Year 1: £19,350


Please see the main Funding Pages for 25/26 scholarship information.

 


ADDITIONAL COSTS

There are no Additional Costs

If you’d like to receive the latest updates from Northumbria about our courses, events, finance & funding then enter your details below.

* At Northumbria we are strongly committed to protecting the privacy of personal data. To view the University’s Privacy Notice please click here

Modules

Module information is indicative and is reviewed annually therefore may be subject to change. Applicants will be informed if there are any changes.

KB3016 -

Engineering Numerical Skills (Core,20 Credits)

You will learn to use a range of mathematical tools and techniques that you can apply to a wide variety of engineering activities. These skills and practices also underpin more advanced engineering design and analysis tools, so gaining a good understanding of the basic principles now will help as your progress through this programme and enter the world of engineering. You will become familiar in working with formulae so that you can apply these skills within the engineering disciplines, for example, when investigating changes in processes and systems and when representing mechanical quantities. You will learn techniques in algebra and trigonometry, such as those used by engineers to determine the shape, size, slope, mass, etc., of objects and spaces as well as when and how objects will move or interact. These techniques are important to determine the unknown components in systems such as mechanical, fluid and thermal transfer and flow systems. These techniques are also applied to the solution of design problems such as those involving force, motion and electrical power.

More information

KB3017 -

Engineering Principles (Core,20 Credits)

You will learn to apply a range of basic principles and methodologies involving models of physical systems, matter, energy and waves, and forces and fields. You will be assisted in developing your understanding of measurement and error to test predictions against evidence using a range of experimental methods and practical exercises. Appropriate computational and analytical techniques will be applied to enable you to solve well-defined problems involving physical systems using standardised engineering approaches.

More information

KB3018 -

Foundational Engineering Approaches 1 (Core,20 Credits)

In this module you will be presented with authentic engineering problems derived and adapted to give you opportunities to explore ways in which you would resolve such problems to produce appropriate engineering solutions. This module will, within the supportive environment offered by staff and your peers, allow you to develop your approach to resolving engineering problems that may involve research, experimentation, creativity and the acquisition and utilisation of new engineering skills. Well bounded and defined problems within well understood constraints will allow you to develop confidence in resolving problems where there may be several factors to consider. It is expected that there will be a limited range of solutions that might be considered appropriate based upon engineering judgement and perception associated with the topic. Problems will span a range of engineering subjects to help you in making decisions towards your future degree programme.

More information

KB3019 -

Analytical Skills in Problem Solving (Core,20 Credits)

You will build upon your knowledge and understanding of a range of mathematical tools and techniques that you can apply to a wide variety of engineering activities. You will learn to apply and manipulate formulae so that you can apply these skills within the engineering disciplines. You will enhance your appreciation of techniques in algebra and trigonometry, such as those used by engineers to determine the shape, size, slope, mass, etc., of objects and spaces as well as when and how objects will move or interact. You will apply these techniques to determine the unknown components in systems such as mechanical, fluid and thermal transfer and flow systems, which are also applied to the solution of design problems such as those involving force, motion and electrical power. You will further develop foundations in the skills required to apply these techniques using software tools as you progress towards complex engineering activities and prepare for entering an engineering degree programme.

More information

KB3020 -

Engineering Systems (Core,20 Credits)

You will learn to use a range of engineering systems and approaches to develop a holistic approach to tackling different engineering challenges and how these can be utilised in different engineering environments. You will build upon and apply a range of basic principles and methodologies involving models of physical systems, matter, energy and waves, and forces and fields. You will learn to implement and interpret a range of experimental methods and practical exercises to validate predictions obtained through analytical and computational tools.

More information

KB3021 -

Foundational Engineering Approaches 2 (Core,20 Credits)

The inclusion of this application focussed module in your studies will build on Foundational Engineering Approaches I by allowing you to expand the areas of investigation and further develop your problem-solving, teamwork and communication skills. Again, you will be presented with authentic engineering problems derived and adapted to give you opportunities to explore ways in which you would resolve such problems to produce appropriate engineering solutions and further develop professional knowledge. This module will, within the supportive environment offered by staff and your peers, allow you to develop your approach to resolving engineering problems that may involve research, experimentation, creativity and the acquisition and utilisation of new engineering skills. The incorporation of a limited degree of uncertainty in the problem definition will allow you to develop confidence in resolving problems where there may be incomplete information and several answers that might be considered appropriate based upon engineering judgement and perception associated with the problem. Problems will span a range of engineering subjects to help you in making decisions towards your future degree programme.

More information

Modules

Module information is indicative and is reviewed annually therefore may be subject to change. Applicants will be informed if there are any changes.

KB3016 -

Engineering Numerical Skills (Core,20 Credits)

You will learn to use a range of mathematical tools and techniques that you can apply to a wide variety of engineering activities. These skills and practices also underpin more advanced engineering design and analysis tools, so gaining a good understanding of the basic principles now will help as your progress through this programme and enter the world of engineering. You will become familiar in working with formulae so that you can apply these skills within the engineering disciplines, for example, when investigating changes in processes and systems and when representing mechanical quantities. You will learn techniques in algebra and trigonometry, such as those used by engineers to determine the shape, size, slope, mass, etc., of objects and spaces as well as when and how objects will move or interact. These techniques are important to determine the unknown components in systems such as mechanical, fluid and thermal transfer and flow systems. These techniques are also applied to the solution of design problems such as those involving force, motion and electrical power.

More information

KB3017 -

Engineering Principles (Core,20 Credits)

You will learn to apply a range of basic principles and methodologies involving models of physical systems, matter, energy and waves, and forces and fields. You will be assisted in developing your understanding of measurement and error to test predictions against evidence using a range of experimental methods and practical exercises. Appropriate computational and analytical techniques will be applied to enable you to solve well-defined problems involving physical systems using standardised engineering approaches.

More information

KB3018 -

Foundational Engineering Approaches 1 (Core,20 Credits)

In this module you will be presented with authentic engineering problems derived and adapted to give you opportunities to explore ways in which you would resolve such problems to produce appropriate engineering solutions. This module will, within the supportive environment offered by staff and your peers, allow you to develop your approach to resolving engineering problems that may involve research, experimentation, creativity and the acquisition and utilisation of new engineering skills. Well bounded and defined problems within well understood constraints will allow you to develop confidence in resolving problems where there may be several factors to consider. It is expected that there will be a limited range of solutions that might be considered appropriate based upon engineering judgement and perception associated with the topic. Problems will span a range of engineering subjects to help you in making decisions towards your future degree programme.

More information

KB3019 -

Analytical Skills in Problem Solving (Core,20 Credits)

You will build upon your knowledge and understanding of a range of mathematical tools and techniques that you can apply to a wide variety of engineering activities. You will learn to apply and manipulate formulae so that you can apply these skills within the engineering disciplines. You will enhance your appreciation of techniques in algebra and trigonometry, such as those used by engineers to determine the shape, size, slope, mass, etc., of objects and spaces as well as when and how objects will move or interact. You will apply these techniques to determine the unknown components in systems such as mechanical, fluid and thermal transfer and flow systems, which are also applied to the solution of design problems such as those involving force, motion and electrical power. You will further develop foundations in the skills required to apply these techniques using software tools as you progress towards complex engineering activities and prepare for entering an engineering degree programme.

More information

KB3020 -

Engineering Systems (Core,20 Credits)

You will learn to use a range of engineering systems and approaches to develop a holistic approach to tackling different engineering challenges and how these can be utilised in different engineering environments. You will build upon and apply a range of basic principles and methodologies involving models of physical systems, matter, energy and waves, and forces and fields. You will learn to implement and interpret a range of experimental methods and practical exercises to validate predictions obtained through analytical and computational tools.

More information

KB3021 -

Foundational Engineering Approaches 2 (Core,20 Credits)

The inclusion of this application focussed module in your studies will build on Foundational Engineering Approaches I by allowing you to expand the areas of investigation and further develop your problem-solving, teamwork and communication skills. Again, you will be presented with authentic engineering problems derived and adapted to give you opportunities to explore ways in which you would resolve such problems to produce appropriate engineering solutions and further develop professional knowledge. This module will, within the supportive environment offered by staff and your peers, allow you to develop your approach to resolving engineering problems that may involve research, experimentation, creativity and the acquisition and utilisation of new engineering skills. The incorporation of a limited degree of uncertainty in the problem definition will allow you to develop confidence in resolving problems where there may be incomplete information and several answers that might be considered appropriate based upon engineering judgement and perception associated with the problem. Problems will span a range of engineering subjects to help you in making decisions towards your future degree programme.

More information

To start your application, simply select the month you would like to start your course.

Mechanical and Civil Engineering Foundation Year

Home or EU applicants please apply through UCAS

International applicants please apply using the links below

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If you’d like to receive the latest updates from Northumbria about our courses, events, finance & funding then enter your details below.

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