Course Summary

The Architecture Engineering degree is a multidisciplinary degree combining the art of designing with the construction of buildings. Studying architectural engineering will enable you to develop and practice your own creativity into the design of the buildings. The programme has been carefully designed to produce tomorrow’s engineers who can work in multidisciplinary teams to design, construct, maintain and operate our infrastructure facilities whist utilising latest technological tools and techniques. The programme embraces the Conceiving-Designing-Implementing-Operating (CDIO) educational framework for producing the next generation of “work-ready” engineers. This will provide a learning experience that stresses the engineering fundamentals set within the context of CDIO real-world systems and products. The Architecture Engineering degree will empower you as a graduate engineer to liaise and communicate effectively and efficiently with Architects to ensure both functional and aesthetic design. You will gain a solid technical grounding in structural engineering, and appreciation and understanding of contemporary global architectural design. UN Sustainable Development Goals are embedded throughout the programme and practiced in the design projects to achieve a sustainable and resilient built environment. Learning in our dedicated design studios and working on real design projects, you will develop a sound understanding of the processes of design and construction transforming theory into practice. You will create physical models and produce visual representations and drawings using industry standard software. Studying Architectural Engineering will give you the educational base to work at the intersection of structural engineering and architecture and to successfully gain chartered engineering status after graduation. While studying with us you will: • learn in dedicated design studios that are fully equipped with the latest equipment and technology. • be taught by research active staff and industry experienced tutors – Our tutors have extensive track records of project design and delivery. • develop programming skills and use artificial intelligence to inform the design of complex structures. • work on authentic projects which are varied in terms of complexity, context, scale, and material use.

Course Details - Modules

Modules are not listed for this Course.

Course Details – Assessment Method

Assessment Methods are not listed for this Course.

Course Details – Professional Bodies

The Joint Board of Moderators

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: HK27

Institution code: B56

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

112 UCAS points to include Mathematics at grade C

112 UCAS tariff points to include GCE Advanced Level Mathematics at Grade C and GCSE English and Mathematics at grade 4/grade C or equivalent.

112 UCAS tariff points to include Advanced Higher grade D in Maths plus SQA Credit standard grade / Intermediate 2 at grade 3 in English or SQA National 5 grade C in English.

112 UCAS points to include 12 Level 3 Maths credits at Merit. Applicants should be studying an Access to HE in Science or Engineering.

112 UCAS tariff points to include Higher Level Maths at grade 5 plus Higher Level grade 3 or Standard Level grade 4 in English.

Acceptable subjects: Any Engineering or Construction and the Built Environment. BTEC Extended Diploma (2010): Engineering subjects to include Further Mathematics for Engineering Technicians module (Unit 28) at Merit. Construction and the Built Environment to include Further Mathematics in Construction and the Built Environment module (Unit 19) at Merit. BTEC National Extended Diploma (2016): To include Calculus to Solve Engineering Problems (Unit 7) and Further Engineering Mathematics (Unit 8) at Merit or Further Mathematics in Construction (Unit 15) at Merit.

The University welcomes applications from students with a wide range of qualifications from the UK and overseas, including combinations of qualifications. To check whether your qualifications meet the entry requirements for this course, please contact the University. English language requirements for International and EU applicants: The standard University requirement is IELTS 6.0 with no sub-test less than 5.0 (or equivalent). However, if you require a Tier 4 (student) visa to study you will need to meet the UK Visas and Immigration (UKVI) department's requirement which is currently IELTS 6.0 with no sub-test less than 5.5. Conditional offers to international students will be made on this basis.

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
English Language Entry Requirement Information are not listed for this Course.

Unistats information

Student satisfaction : 0%

Employment after 15 months (Most common jobs): 0%

Go onto work and study: 0%

Fees and funding

England 9250.0 Year 1
Northern Ireland 9250.0 Year 1
Scotland 9250.0 Year 1
Wales 9250.0 Year 1
Channel Islands 9250.0 Year 1
Republic of Ireland 9250.0 Year 1
EU 20118.0 Year 1
International 20118.0 Year 1

Additional Fee Information

Additional Fee Information are not listed for this Course.

Provider information

Richmond Road
Address2 are not listed for this Course.
Address3 are not listed for this Course.
Bradford
BD7 1DP

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