Rapid advancements in bioengineering call for broad public literacy to help individuals better understand the changes these technologies bring to our lives. However, making bioengineering concepts accessible and relevant, especially to non-science majors, is often challenging. To address this challenge, we designed a general education course aimed…

This study delves into the realm of student conceptual change, examining shifting understandings as important steppingstones on the path to sensemaking and canonical understanding in science education. It explores the potential of a STEAM (Science, Technology, Engineering, Arts, and Math) curriculum, aiming to provide equitable learning…

This study employed a multi-phased process to guide the development of an approach for integrating socio-scientific issues (SSI) and science, technology, engineering, arts, and mathematics (STEAM) education in a way that can reform how science is taught in schools to improve scientific literacy. This approach can help teachers connect science…

Creating learning environments that integrate arts, sciences, and computing in education can improve learning in these disciplines. In particular, transdisciplinary integrations of these disciplines can lead to expansive alterations or dissolutions of epistemological, ideological, and methodological boundaries. We wish to support teachers in the…

How can an engineer design a bird feeder that attracts many birds? This question resulted from kindergarten students' observations of the bird feeders in their school's bird sanctuary. The challenging question is the heart of project-based learning (PBL), a teaching strategy in which students tackle real-world problems and design projects to solve…

The addition of the arts to STEM education, now known as STEAM, adds a new dimension to problem-solving within those fields, offering students tools such as imagination and resourcefulness to incorporate into their designs. However, the shift from STEM to STEAM has changed what it means for students to learn within and across these disciplines.…

Along with inquiry-based teaching, exploring the elements of art can guide students to view and represent objects realistically. Understanding line, shape, color, value, form, space, and texture helps bridge the gap between what students actually observe and what their preconceived ideas about the object may be. This type of explicit instruction…

Instructional strategies make a difference in whether students are engaged in learning and are profiting from their time in class. High schools, technology centers and middle grades schools are encouraging teachers to adopt new teaching techniques and are providing opportunities for teachers to work together to improve their instructional skills…

The ELMO (Embedded Learning Modules) curriculum reform project has designed science curricula for specific nonscience students that fulfill core requirements and demonstrate how science can be engaging and relevant. ELMO students experience science through active learning and group activities that encourage them to make connections between science…

This study explores a fourth grade classroom, hypothesizing about the possibilities for using drama to teach elementary school science. The case study provides one with the author's first glimpse into a fourth grade science classroom, as well as a preliminary examination of whether or not room exists for drama in the elementary science classroom.…

This volume presents 64 abstracts of keynote and parallel paper presentations of the Irish National Academy for Integration of Research, Teaching and Learning's (NAIRTL) conference on the theme of flexible learning. The Flexible Learning conference was a joint initiative by NAIRTL and the Learning Innovation Network. The keynote presentations can…