Teachers' engineering design self-efficacy changes influenced by boundary objects and cross-disciplinary interactions

Abstract

As part of a larger ongoing NSF-REE-funded project focused on postsecondary maker identity within a university makerspace context, this paper reports on ten in-/pre-service teachers' engineering design self-efficacy changes after participating in a semester-long makerspace experience at a large Hispanic-serving university in the Southwestern United States. The aim of this part of the project is to discover specific learning models that involve both STEM university students and in-/pre-service teachers in order to develop teamwork, self-efficacy, communication, and identity formation in the maker environment. The theoretical lens of boundary objects (Star & Griesemer, 1989) and cross-disciplinary collaboration (Gorman, 2010) are used to examine how specific learning models can influence change in engineering design self-efficacy. This paper presents the details of the procedural context and learning models integrated within a graduate-level educational technology course, reports on the pre-/post-test results from the Engineering Design Self-Efficacy survey instrument, and discusses implications for engineering education and engaging teachers in authentic maker integration within K-12 educational contexts.