NMITE which last year (September 2021) welcomed its first students onto its MEng Integrated Engineering course has confirmed it will now be offering a Bachelor’s degree. From September 2022, NMITE will be accepting entries for its fast-track BEng programme, described as the “natural partner” to its existing MEng qualification.
The BEng will have all the benefits of the MEng delivery in terms of the NMITE style and philosophy and hands on learning, (Monday – Friday, 9 – 5) 46 weeks of the year. The BEng duration is confirmed as 26 months (September 2022 students will graduate in November 2024) so just over two years rather than the traditional three. Fees for the duration of the first BEng intake are £7,200 per annum.
Commenting on the news, Professor Elena Rodriguez-Falcon, President & Chief Executive of NMITE said “We had always planned to be a multi-course provider with a selection of pathways available. One advantage of being a new, nimble organisation is we can implement quickly and we have taken this decision based on feedback from our existing cohorts and potential learners. We’re excited to be able to deliver on our ambition.”
Unlike the MEng which will accept another intake in January 2023, the BEng will be available to UK students with intakes each September (from 2022 onwards). As with the MEng, students will not be required to have A level Physics or Maths as these subjects will be taught as part of the course. Students will require 112 UCAS points with GCSE Maths and English Grade 6 or above so lower entry requirements than the MEng but with the same emphasis on finding applicants with individuality coupled with passion, grit, determination, creativity and curiosity.
Professor Elena Rodriguez-Falcon adds “We are extremely confident of what we are already delivering and it makes sense to make this great offer available to a bigger range of people. This move gives our cohorts more choice and more accessibility and we will also keep open options for switching between postgraduate and undergraduate courses. We recognise
that some will prefer a two-year commitment and some will have the ambition for three years.”
Abu-Huraira Ishfaq, who studied Psychology, Geography and English Language & Literature at A-Level in Peterborough, is one of the original September 2021 cohort. Commenting on his NMITE experience so far, he said “As an NMITE student I have had to evolve my learning abilities from predominantly essay writing to include mathematical calculations – a challenge, but one I am enjoying. My favourite experience has been the trip to JCB, an opportunity to learn the history of a large engineering company and how it has structured itself for global success. I’m ready to make a change to the world we live in.”
ETL Systems, a world-leading manufacturer of satellites and RF products is one of NMITE’s partners and were the main challenge partner for NMITE’s Integrated Systems module. As part of this challenge, students needed to develop a model which allowed the user to predict whether a satellite communications link would work. Simon Swift, Engineering Manager from ETL Systems said “As a partner we have been impressed by the students we have encountered so far and their rounded skillset gives them a highly useful systemwide appreciation of product engineering. We are delighted to have supported NMITE since the start of their journey and we are very excited about the introduction of the BEng.”
NMITE’s teaching, or more accurately learning to be an engineer, concentrates on the core engineering concepts and content as well as ethics and sustainability delivered through a series of Sprints while NMITE’s Toolboxes equip learners with skills like drawing, teamworking, programming, communication, certainty, management and business, creativity and design. Working in small teams, similar to the real workplace, engineering and toolbox skills are used to work on substantial community-based challenges with local organisations. A forthcoming example is a project which will be delivered in partnership with Hereford Cathedral to create and develop a solution to illuminate the display areas of the Cathedral whilst avoiding traditional electrical installation methods which cannot be used in an important heritage setting. This project will include normal engineering challenges but will also require learners to work with a client to understand precise requirements, comply with various regulatory and safety obligations and to protect the fabric of the building in which the solution will be deployed.