Integrating hands-on Science, Technology, Engineering, and Math (STEM) education with a focus on the engineering design process into elementary school curricula has been associated with positive outcomes, including enhanced student understanding and increased interest in the topics. Here, we evaluated third grade student interest and perceived…

Engineering design is being increasingly included in elementary education, typically to provide students with opportunities to apply science and mathematics concepts while developing their engineering practices. An important question is how to prepare teachers who can help students develop more informed engineering practices during classroom…

The integration of engineering into existing school science curricula is arguably an effort to move beyond a mono-disciplinary goal of learning to one that teaches real-world applications and problem-solving in science. This study adopted dual theoretical lenses to scrutinize and compare the distribution of engineering elements in past and present…

The activity presented in this article is an engaging engineering challenge that has been conducted with third- through fifth-grade students in school classrooms and during after-school programs. This article describes the hands-on activity as appropriate for fifth graders that supports the "Next Generation Science Standards." This…

An understanding of how sensemaking unfolds when elementary students engage in engineering design tasks is crucial to advancing engineering teaching and learning at K-12 levels. Sensemaking has been widely studied in the context of science as a discipline. In this paper, we seek to contribute to the more nascent efforts to build theory about the…

Research has consistently highlighted the importance of promoting child-parent interactions. In this essay, we describe the development of MAKEngineering kits that provide collaborative learning experiences for children in Grades 2-6 to engage in engineering design tasks with members of their families in their home environment. First, we present…

Current U.S. science education reform efforts call for engineering to be included as part of science instruction at all grade levels. As students experience engineering instruction alongside science, an important question is how students conceptualize the nature of those two fields, and especially the extent to which they differentiate science and…

Science, technology, engineering, and mathematics (STEM) teaching and learning have increasingly become a part of educational practice and pedagogy. Educators, business leaders, and policy-makers seek to get involved with funding and making decisions for STEM initiatives. Stakeholders include those looking forward to preparing students for future…

There is a demand for more STEM professionals. Early elementary students' conceptions about engineering can influence whether or not they explore STEM career paths and ultimately select an engineering career. This study examined the conceptions elementary students have regarding the work that engineers perform. The research questions were the…

Computational thinking has been taught in elementary classrooms in other countries for many years, but in the United States this has only been a focus recently due to the drastic shortage of computer scientists. Early exposure to computational thinking has been shown to motivate students to pursue STEM careers, especially computer science (Jin,…

Although incorporating engineering into science instruction seems straightforward, adding more content into an already busy school day may be overwhelming for some teachers. To address this challenge, the authors created a unit that integrates engineering and literacy instruction. This article demonstrates how young students can learn…

The culture of engineering and the culture of formal learning environments often make it difficult for individuals to develop an engineering identity. Conversely, recent research points to the home environment as an alternative setting to support discipline-specific identity development of children, while less is known regarding the identity…

Although science, technology, engineering, and mathematics (STEM) initiatives have received increased attention in recent years (Bybee 2011), the focus is often on science and mathematics (Thornburg 2009). Yet, engineering has been referred to as "the glue that holds the other STEM subjects together" (Thornburg 2009). With the release of…

Incorporating engineering instruction into the elementary curriculum is not without challenges. Traditionally, researchers investigated using engineering design to promote students learning science concepts. More recently, researchers have conducted qualitative investigations to measure students' learning of engineering concepts after engaging in…

21st century educational reform initiatives value creativity, collaboration, innovation, and higher-order thinking (Scardamalia, 2002), the skills needed for students to successfully address the complex engineering challenges facing society. "A Framework for K-12 Science Education: Practice, Crosscutting Concepts and Core Ideas" (NRC,…