Abstract
School teachers in science, technology, engineering and mathematics (STEM) face challenges in developing and maintaining high levels of student engagement and achievement in those disciplines. Consequently, declining numbers of students are electing these subjects beyond the compulsory years of schooling. A major factor in student engagement often is curriculum content being relevant to the lives of students outside the classroom. Two key ways teachers can enhance the real-world relevance of their lessons are inquiry-based learning and localising the curriculum to provide an authentic context for teaching and learning. In this paper, we report a qualitative study into the perceived influences of inquiry-based learning on student engagement, as facilitated through teacher professional learning in the context of two major infrastructure programs in Sydney, Australia. Semi-structured interviews and focus groups were conducted with primary and secondary teachers who participated in professional learning about inquiry-based pedagogies, as well as with their students who undertook inquiry-based learning projects based on the infrastructure programs in their local community. Inductive and deductive content analyses using Attard’s Framework for Engagement with STEM illustrated how the combination of teacher professional learning, student inquiry-based learning, and localised industry-school partnerships enhanced student engagement across operative, cognitive, and affective domains. Another significant finding was the extent to which professional learning as the vehicle for inquiry-based learning and industry connections enhanced teachers’ pedagogical relationships and pedagogical repertoires in ways not possible with more conventional approaches to industry-school partnerships.
Highlights
Science, Technology, Engineering and Mathematics (STEM) related disciplines continue to experience challenges in the development and maintenance of high levels of student engagement, influencing students’ decisions to continue their study beyond the compulsory years of schooling (Attard et al, 2020)
We present the data intertwined with our discussion
Data gathered from participating teachers and their students in two separate studies provide strong evidence that in these two programs the implementation of inquiry-based learning, combined with an industry-based partnership appeared to promote student engagement in the STEM disciplines
Summary
Technology, Engineering and Mathematics (STEM) related disciplines continue to experience challenges in the development and maintenance of high levels of student engagement, influencing students’ decisions to continue their study beyond the compulsory years of schooling (Attard et al, 2020). It is well documented that high levels of engagement are a significant contributing factor to academic success (Barker, Dowson, and McInerney, 2005; Hughes et al, 2008; Maltese and Tai, 2010; Attard, 2013; Wang and Degol, 2014), yet improving student engagement in the disciplines of mathematics and science continues to challenge educators. Industry partnerships with schools provide opportunities for experts to engage with students and teachers, increasing awareness of the relevance of the curriculum and their learning (Torii, 2018). There is little existing research exploring the relationships between industry-school partnerships combined with IBL to improve student engagement through teacher professional learning
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