On Ada Lovelace Day #ALD21: What can a flying horse tell us about the problem with STEM education?
12 October 2021
Ada Lovelace Day logo
On Ada Lovelace Day, an international day celebrating the achievements of women in STEM (science, technology, engineering & maths), Professor Beverley Gibbs, Chief Academic Officer at new provider of higher education, NMITE (New Model Institute for Technology & Engineering), reflects on what Ada Lovelace’s flying horse can tell us about some very modern problems with educating engineers.
In 1827, when she was only 12 years old, Ada Lovelace imagined a steam-powered flying horse. Ada’s ideas for the horse terrified her mother, who feared Ada was taking on characteristics of her father… the original ‘mad, bad and dangerous to know’ lothario, Lord Byron. Byron is still regarded as one of the great English poets, and Lady Byron’s reaction to Ada’s horse-themed creativity was to buckle down on directing Ada into a purposeful study of mathematics and science to avoid the chaos associated with her creative father. The rest, as they say, is history, and on the second Tuesday of every October, we now celebrate Ada Lovelace Day, recognising her contribution to computer science.
As an engineer, I find Ada’s flying horse captivating and inspiring. At their best, engineers rely on imagination, empathy, creativity, vision and readiness for change – capabilities that come from an understanding of what it is to be human, rather than an overly narrow devotion to maths and science. Why then, do we spend so little time in the engineering curriculum developing these capabilities – and why do we select them out during our admissions processes?
AT NMITE (New Model Institute for Technology & Engineering), we’re determined to do things differently. At NMITE, we recognise that people who do not have Maths and Science A-levels can still have the vision, curiosity, determination and creativity to be fantastic engineers – and so we welcome them. Our very human admissions process takes account of the applicant’s journey and potential. Once they join us, we explicitly teach and support maths and science – as well as communication and interpersonal skills – inside the programme, closely aligned to their application in engineering work.
We are also inspired by the humanities world, and have built that into our programme, because the subjective and objective need not be in competition. The professional accreditation of engineering education requires that engineers can work with ambiguity, respond to stakeholders and manage risk – and these skills cannot come from numbers and natural laws alone.
Professor Beverley Gibbs_Chief Academic Officer at NMITE
At NMITE, we have infused the curriculum with approaches from history, art, philosophy and rhetoric, as well as the more usual social sciences. In the first couple of weeks in our programme, learners study the idea of certainty – yes, in metrology, but also in speech. There are of course plenty of examples of great teaching at the humanities and science interface, but in NMITE we have won the institutional argument on transdisciplinary approaches and it’s what we are founded on. That’s not just because different disciplines are interesting and important, but because we know they unlock routes to being a better engineer. As engineers, we are perhaps most characterised by a yearning to put ideas to use: in many ways, this is the essence of what engineering is. Too often, educators are keen to share their discipline’s insights, but stop short of showing students how to effectively integrate those perspectives into their core discipline or vocation.
NMITE was founded in response to an overly narrow admissions criteria to engineering degree courses. We aim to meet the needs of employers reporting long-term shortages in a sector critical to economic growth and human wellbeing. We have a recruitment process that treats applicants as rounded people, and we maintain that human awareness throughout our programme… humans as stakeholders, employers, and collaborators. Humans at individual, community and global scales. Rather that seeing safety in logic and numbers as Lady Byron did, we see safety in properly preparing our graduates for the world they will enter an the work they will do.
Whilst Ada Lovelace is rightly recognised and respected for her contributions to computer science, let’s be inspired by her navigation of different disciplines – and reflect on the evidence that she had all the hallmarks of a thoroughly excellent modern engineer.
Professor Beverley Gibbs is Chief Academic Officer at NMITE, a new provider of higher education. Find out more at: www.nmite.ac.uk
Contact Details and Archive...