Background: Implementing maker education in schools is on the rise, fuelled by its potential to move formal education towards a creative, technology-driven 21st century learning culture. In maker education, collaborative learning takes place through and around various digital and traditional technologies, which provide the means for students'…

This study aimed to examine how students managed conflicts in an engineering design process and how different management styles affected their group interaction progress. We observed three groups of students in classes, where they designed devices to solve water shortages. Students' interactions involving conflict in these lessons were analyzed in…

Insights on students' own authentic design practices--nascent design practices without much adult guidance--are crucial to informing responsive facilitation of engineering design tasks. This study unpacks how elementary students interpret teacher given information about a design task, and interact with each other and given resources, to traverse a…

The purpose of this study was to address issues of potential gender bias in pre-service elementary teachers' conceptions of engineers and engineering using Freire's (2018) "Critical Consciousness" perspective. By identifying the biasness as causal and structural attributions, the study also aimed to construct a critical pedagogy…

Mastery of mathematical literacy is essential for developing life skills in the 21st century. Mathematical literacy is even more critical in elementary schools as it forms the basis for mastery at the junior and senior high school levels. Elementary school students differ in their characteristics from students at the higher education level. They,…

Model-eliciting activities (MEAs) challenge students to interpret a problem and collaboratively create solutions using the engineering design process. This Innovation to Practice article describes how science, technology, engineering, and mathematics (STEM) teacher educators can use MEAs to build elementary teachers' understanding of computational…

Mechanistic reasoning about an artifact or system involves thinking about its underlying entities and the properties, activities, and cause-effect relationships of those entities. Previous studies of children's mechanistic reasoning about engineering solutions have mostly focused on specific mechanical systems such as gear trains. Yet there is…

What if you could challenge your fourth graders to create a minimally invasive, highly efficient dam? With this volume in the "STEM Road Map Curriculum Series," you can! "Hydropower Efficiency" outlines a journey that will steer your students toward authentic problem solving while grounding them in integrated STEM disciplines.…

Learning to teach science using engineering design is a complex endeavor for elementary preservice teachers (PSTs). This entails helping PSTs understand students as sense makers and recognizing ways to notice, respond, and leverage their students' ideas throughout the design process. In this study, we follow a cohort of elementary PSTs through a…

Toys used as a play tool have an important role in the development of children. For this reason, it is necessary to offer children the opportunity to design their own toys. Scientific toys can be used in science lessons to encourage creativity and to teach science concepts and scientific inquiry. With the integrated STEM Education and specifically…

In STEM education, the engineering design process serves as a pedagogical strategy to connect science and mathematics concepts. While STEM approaches are increasingly favored in science courses, the role of mathematics in integrated STEM activities is often overlooked, despite its foundational importance across STEM disciplines. This manuscript…

With the increasing importance of teaching STEM to young students, the engineering design process (EDP) has become a popular learning platform in K-12 STEM education. The engineering design process guides students in solving engineering problems, but there is a lack of understanding of how students utilize this process. In this study, we explored…

This action research study explored the challenge of evoking wonder among fourth graders within one Catholic School, using an integrative STEM educational approach. Cognitive constructivism, social constructivism, and situated learning theory guided this qualitative case study. Twenty-one students learned about the Fibonacci sequence and Golden…

"Introducing Engineering to K-8 Students" will provide you with the tools you need to incorporate engineering design into your classroom. Rather than prescribing a specific curriculum to follow, this book will help you engage your students with hands-on, open-ended engineering design problems that can be easily integrated into your…

The role of engineering in science and mathematics education continues to emerge as a contributing factor to improving STEM education. Efforts across different countries include the integration of engineering in K-12 curriculum, after school programs, and inservice teacher professional development. Only recently have science teacher educators…