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…

Current views on the teaching of differential equations (DEs) are shifting towards the use of graphical and numerical methods. Motivated by recent research suggesting that puzzle-based learning (PzBL) can improve the teaching and learning of STEM subjects and by the lack of relevant studies for DEs, we designed two tasks--sophism and paradox--to…

There are no conflicts between intentional teaching and play-based learning. However, educators find it challenging to establish the pedagogical relationship between them as they struggle to conceptualise and enact their role in the play-based context. In particular, educators' confidence level is not enough to teach science and engineering in a…

It is argued that logic, and in particular mathematical logic, should play a key role in the undergraduate curriculum for students in the computing fields, which include electrical engineering (EE), computer engineering (CE), and computer science (CS). This is based on (1) the history of the field of computing and its close ties with logic, (2)…

This paper explores the connection between critical theory, information evaluation, and the instructional practice of critique for STEM students and librarian instructors. Using an emerging theory and instructional method, the authors examine how to more deeply include voices that have historically been excluded from STEM information critique. The…

Globally, the demand for people prepared to enter Science, Technology, Engineering and Math (STEM) careers is increasing. To help fill this demand, many formal and informal STEM educational interventions have been implemented in the K-12 domain. However, due to the lack of a clearly defined framework for documenting the nature and scope of the…

The need for addressing global and societal problems is stronger than ever, as demonstrated by the UN Sustainable Development Goals and National Academy of Engineering Grand Challenges. However, engineering undergraduate students rarely get to experience engaging with the associated real-world projects and challenges. This has the potential to…

Twenty-first-century skills are increasingly recognized as critical skills that today's students must develop to adapt to increasingly rapid world changes. This research aims to test the effectiveness of the STEM-EDELCY learning model to improve students' 21st-century skills. This research involved 285 junior high school students (aged 12-13) from…

Our multifaceted society calls for engineers that are not only experts in their domain, but possess the flexibility to understand adjacent disciplines. The inclusion of the performing arts in engineering curricula has shown potential for cultivating creativity and equipping STEM students with problem-solving abilities. However, the literature…

The aim of this research is to give an overview of the psycho-didactical model of Engineering Pedagogy, as the basis of effective STEAM (Science, Technology, Engineering, Arts (Design), Mathematics) teaching and instructional design. Attributes of engineering graduates and basic skills of 21st century graduates are presented. The competency model…

 Today's elementary teachers are expected to teach the engineering practices included in the National Research Council's Framework for K-12 Science Education and the Next Generation Science Standards. Recent studies have indicated that teachers are less self-efficacious in teaching engineering than in other subject areas. Project Lead the…

Situated in an elementary afterschool Engineering Literacies Club framed around multiliteracies and the engineering design process, this article explores engineering habits of mind and disciplinary literacies. Disciplinary literacies encourage students to read, write, think, and act like historians, mathematicians, scientists, or engineers by…

Science, Technology, Engineering, and Mathematics (STEM) education is essential for developing future-ready learners in both secondary and higher education levels. However, as students transition to higher education, many encounter challenges with independent learning and research. This can negatively impact their Higher-Order Thinking Skills…

This paper describes applying a new brain-based instructional approach called "Tailored Instructions and Engineered Delivery using Protocols" (TIED UP) in an engineering classroom. Brain-based strategies leverage our knowledge about the functioning of the human brain to deliver the course information effectively. Although brain-based…

Despite the adoption of modern educational approaches such as activity-based, laboratory-based, technology enhanced science education, it is known that in most cases, students have difficulties in achieving desired learning goals such as developing inquiry skills and engineering knowledge. The efforts of science educators to ensure that students…