Futureproofing the Education of Non-Traditional Higher Education Entrants: Embedding Mathematics into Engineering Curricula

Bertie Knight, Parakram Pyakurel, Jean-Baptiste R. G. Souppez

Research output: Chapter in Book/Published conference outputConference publication

Abstract

Mathematics is fundamental to engineering education. However, higher education engineering courses have struggled to make mathematics accessible to students, with a reported disconnect between theory and practice. While a number of approaches have attempted to bridge this gap, there remains an entry requirement for mathematics, and dedicated modules. Consequently, to widen participation, better evidence the applications of mathematics and support students, we present a paradigm shift for mathematics in engineering education. First, we analyse a case where mathematics entry requirements are removed, and no dedicated mathematics modules are present. Second, mathematics is embedded in the curriculum with focus on wide applications and physical interpretations. Our results show that, while a difference exists between students with and without mathematical background in the first year of their courses, it is suggested this is no longer the case by the second year, showcasing the effectiveness of the proposed approach.
Original languageEnglish
Title of host publicationIFNTF "Symposathon", Transforming Teaching Excellence: Future Proofing Education for All
Publication statusE-pub ahead of print - 2 Dec 2024

Bibliographical note

This is an accepted manuscript of a paper presented at the conference IFNTF "Symposathon", Transforming Teaching Excellence: Future Proofing Education for All" December 2nd 2024.

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