Digital learning technologies have grown increasingly important in physics education, partly enforced through the COVID-19 pandemic. During the pandemic, digital technologies allowed for continued teaching and learning of students even when schools were closed. While research in psychology and educational technology has yielded many insights into…

Female students, Latinx students, first-generation students, and transfer students often feel uncomfortable in science, technology, engineering, and mathematics (STEM) environments. However, some departments have been making progress in changing that. Guided by double consciousness and person-environment fit theory, we investigated the lived…

Women and people of colour are underrepresented in physics in many parts of the world, to the detriment of the field. How do academics' beliefs about the role of 'brilliance' in career success contribute to these representation gaps, and what can be done to address them?

Students' physics self-efficacy, interest, and identity in introductory courses can influence their outcomes in that course and their future career aspirations. A lot of work has focused on the role these motivational beliefs play in students' outcomes without attention to the role the perception of the inclusiveness of the learning environment…

Physics education research (PER) is a global endeavor, with a wealth of work performed at a variety of institutions worldwide. However, results from research into undergraduate physics laboratory courses are often difficult to compare due to the broad variations in courses. We report here how we developed and validated a survey to classify these…

In this study, we have explored the effectiveness of two instructional approaches in the context of the motion of objects falling at terminal speed in the presence of air resistance. We ground these instructional approaches in dual-process theories of reasoning, which assert that human cognition relies on two thinking processes. Dual-process…

Background: Learning assistants (LAs) in undergraduate STEM lectures facilitate discussions between students in small groups. In this research study, we investigate the impact of LA facilitation on student learning as it occurs during LA-student interactions. To do so, our work builds on two sociocultural frameworks focused on LA facilitation and…

Conceptual understanding is one of the most difficult issues in teaching physics. This study investigated the effect of adopting cooperative learning and Internet reciprocal teaching (IRT) on science, technology, engineering and mathematics (STEM) literacy (physics) in secondary school by comparing the cooperative method with the IRT strategy and…

In this article, we discuss Micro Assignment Guided Inquiry and Collaboration (MAGIC), an active learning method that draws on the merits of inquiry-based learning in STEM courses. We describe the use of Micro Assignments (MAs) consisting of a series of short, instructive guiding questions that scaffold the course material. Students work through…

This study examined the impact on the motivation of students toward learning physics upon applying the Nikola Tesla Center (NTC) learning system. The research was conducted using a quasi-experiment with a pretest-posttest non-equivalent control group design. The participants considered were a large group of 1371 students, from various grades and…

Curricular analytics (CA) is a quantitative method that analyzes the sequence of courses (curriculum) that students in an undergraduate academic program must complete to fulfill the requirements of the program. The main hypothesis of CA is that the less complex a curriculum is, the more likely it is that students complete the program. This study…

We present a tool, one that is both a stand-alone web-based video game and a Python package, designed for students to explore a particle's wave function on one-dimensional potential surfaces. The tool relies on a basis set formalism and can, therefore, explore any one-dimensional potential surface imaginable. This tool also lets students interact…

The challenge of accurately assessing critical thinking in physics education, particularly on topics like work and energy, remains a key issue for educators. The current study aims to address this challenge by exploring students' critical thinking abilities using two-tier test data analyzed through the Rasch model. Data were collected from…

This study employed a qualitative case study design to explore participants' perspective on learning STEM subjects through immersive mobile technologies. Immersive mobile learning (IML) is the learning approach that provides learners with immersive experiences and access to educational content ubiquitously using portable electronic devices.…

Design-Based Learning and computational thinking (CT) are two key components that support each other specifically in the learning process involving the development of experimental design. Both components emphasize the importance of integration between computational thinking and design-based learning to support a creative, innovative and data…