Advocacy of STEM curricular approaches is based on a concern to engage students in authentic disciplinary and interdisciplinary practices in the STEM (science, technology, engineering, mathematics) disciplines, and the need to promote participation in STEM pathways. The "STEM Academy" professional learning program was developed to…

This article examines the ways in which interdisciplinary small groups were used in a school setting in order to drive students' "joyful engagement and" literacy instruction. Drawing from the work of Dr. Gholdy Muhammad in "Cultivating Genius" (2020) and "Unearthing Joy" (2023) we designed and implemented a summer…

As an emerging field of theory, research, and practice, STEAM (Science, Technology, Engineering, Arts, and Mathematics) has received attention for its efforts to incorporate the arts into the rubric of STEM (Science, Technology, Engineering, and Mathematics) learning. In particular, many informal educators have embraced it as an inclusive and…

This discussion explored the integration of creative thinking pedagogy and the anthropological theory of didactics in university-level algebra education, emphasizing the importance of understanding the perspectives of both learners and teachers. The work began by highlighting the necessity of considering these viewpoints to create effective and…

College students with identities traditionally marginalized in scientific disciplines are more engaged and more likely to remain in science if they feel that they belong in their science, technology, engineering, and mathematics (STEM) classes and departments. In this qualitative case study, we elevated marginalized student voices to learn how…

Contribution: A systematic interdisciplinary engineering and technology instructional model using cutting-edge technologies is proposed in this research. This model consists of four key components: 1) interdisciplinary collaboration; 2) hands-on projects; 3) real-world simulations; and 4) cutting-edge technologies. The model was designed to engage…

Nature place-based learning (NPBL) is one way to sustain people and places at risk of environmental degradation while engaging students in authentic learning experiences, connecting their work to global efforts and inviting students to realize their collective impact. NPBL offers an opportunity for students to apply interdisciplinary literacies…

In this paper, we examined students' engagement in an implementation of a Workplace Simulation Project (WSP). The WSP was designed to actively engage students in learning disciplinary content by inviting engineers from industry to have a physical presence within the school building to collaborate with teachers and students to complete projects…

This article explores the benefits of using digital technology to support and enhance students' understanding during mathematical inquiry. The use of digital technologies enabled students to focus on the problem-solving aspects of the task such as how to compare and represent the data effectively.

A call for educational reform motivated this school system to devise an enhanced version of STEM in their middle school. This case provides rich descriptions of how eighth grade middle school teachers, from multiple disciplines, enacted a STEAM team model that integrated Language Arts into STEM. These STEAM team teachers were systematically…

Background: Inclusive STEM high schools employ a variety of instructional strategies, including PBL (problem and/or project-based learning) experiences, with the goals of building students' 21st century skills, facilitating long-term academic success, and encouraging pursuit of STEM careers. PBL approaches are central to the goals of inclusive…

"Place: it's where we're from; it's where we're going. . . . It asks for our attention and care. If we pay attention, place has much to teach us." With this belief as a foundation, "The Power of Place" offers a comprehensive and compelling case for making communities the locus of learning for students of all ages and…

In this paper, we explore how students' engagement varies in different STEM (Science, Technology, Engineering, Mathematics) learning environments. More specifically, we focus on the significance of a learning environment applying an integrated STEM (iSTEM) approach and the significance of STEM learning environments' student-centredness. Moreover,…