The expectations within higher education to improve online STEM courses have continued to increase. The pressure to do so particularly pertains to the lower-level introductory courses that act as gatekeeping courses to various STEM-related majors. Rather than working alone to improve their courses, more instructors for these courses pair with the…

Undergraduate research experiences (UREs) significantly enhance the outcomes of students who participate. Unfortunately, students may face barriers to engaging in UREs, which creates challenges for students' development of essential research skills that may not be covered thoroughly in laboratory classes. Overall, there is a need for a curriculum…

As quantum technologies transition out of the research lab and into commercial applications, it becomes important to better prepare students to enter this new and evolving workforce. To work toward this goal of preparing physics students for a career in the quantum industry, a senior capstone course called "Quantum Forge" was created at…

This paper details an integrated inquiry-based mathematics and science method course for preservice teachers designed around STEM problem-based learning. It documents how problem-based learning (PBL) activities supported PSTs' envisioning of equitable approaches for diverse children. The overarching research question was: "How did preservice…

Active learning approaches to biology teaching, including simulation-based activities, are known to enhance student learning, especially of higher-order skills; nonetheless, there are still many open questions about what features of an activity promote optimal learning. Here we designed three versions of a simulation-based tutorial called…

In "Making Sense of Sensemaking," readers will learn how to navigate the journey from traditional teaching to a dynamic, student-centered approach that emphasizes understanding over rote learning. Grounded in the latest educational research and aligned with the Next Generation Science Standards (NGSS), this book provides practical…

An online curriculum intervention focusing on electronic interactions structure and percent composition was developed using a modified Knowledge Integration design framework. A study was conducted to determine the effectiveness of the design and student perceptions of their experiences. A sample of 58 students enrolled in an introductory chemistry…

Designing and analyzing lesson plans is a ubiquitous practice in teacher education, and yet we know little about how preservice teachers (PSTs) notice elements of their lesson plans that afford opportunities for supporting equitable student sensemaking. We investigate how the use of a tool, a framework for supporting equitable sensemaking, guided…

Institutions of higher education are seeking to support more active learning among faculty, and that support includes the creation of active learning spaces to support more student-centered course activities. However, incremental development of these learning spaces leads to a sorting of students between active and passive learning environments.…

This design case presents the conceptualization, design, and development of Early Science Matters (ESM), an online teacher professional development (oTPD) program for early childhood teachers. The program design consisted of five primary features that were expected to promote participant learning, including (1) visually oriented content, (2)…

To improve the online learning experience, adaptive learning technologies are being used to personalise learning content to suit individual learning needs, with learning analytics being integrated to collect data about the student usage behaviour on the platform. Research indicates that the adaptive learning platforms promote a supportive learning…

Recently, scholars have suggested a co-design collaboration with instructors and students to effectively implement formative assessment (FA) practices because it ensures a high-quality design that considers users' needs, values, and goals in a specific learning context. This study examines the effect of co-designed FA practices, in which…

Science education researchers have found that instructional design focusing more on learners' affective needs can be powerful in nurturing effective and exciting science learning. This paper reports a qualitative study exploring how learners' situational affective experiences are influenced by the interplay of their habitual affective attributes…

Incorporation of increased flexibility and adaptivity in courses can support freshmen with taking responsibility for their learning process. This is especially beneficial in the case of chemistry courses given their typically abstract nature and associated need for engaging in practice and higher order thinking. Blended learning can be used to…

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…