This dataset focuses on the impact of Continuous Professional Development in Teaching and Learning Mathematics and Science (CPD-ITMS), offered by the Rwanda Quality Basic Education for Human Capital Development (RQBEHCD) Project, Subcomponent 1.2. The provided training aimed to provide essential assistance to teachers in upper primary and lower…

Driven in large part by the National Quantum Initiative Act of 2018, quantum information science (QIS) coursework and degree programs are rapidly spreading across U.S. institutions. Yet prior work suggests that access to quantum workforce education is unequally distributed, disproportionately benefiting students at private research-focused…

Critical thinking (CT) is a high-level thinking skill that should be gained in raising individuals who can analyze facts, make independent decisions, make comparisons, and make inferences. On the other hand, these varying states require the inclusion of new acquisitions, such as CT, as the focal point of education. This skill is critical in…

Student-scientist-teacher interactions provide students with several advantages. They provide opportunities to interact with experts and professionals in the field, give students a chance at meeting a role model that may impact students' career choices, and increase awareness of available career options combined with an understanding of how their…

To frame their work, biology education researchers need to consider the role of literature reviews, theoretical frameworks, and conceptual frameworks as critical elements of the research and writing process. However, these elements can be confusing for scholars new to education research. This "Research Methods" article is designed to…

Science teacher professional development is complex. Phases in a teacher's career necessitate different professional learning opportunities. Furthermore, knowledge bases, practices, and attributes need to be cultivated during these times. For science teachers, it is not always evident how to link professional learning opportunities progressively…

This book is the result of a collaboration between a human editor and an artificial intelligence algorithm to create a machine-generated literature overview of research articles analyzing importance of critical thinking in Educational Settings. It's a new publication format in which state-of-the-art computer algorithms are applied to select the…

Magnetic resonance is a powerful technology that has had a major impact across the physical, life, and medical sciences, from chemistry to medical imaging, with ever-expanding applications in new areas as diverse as mining and food science. It is, however, also a difficult subject to teach, as the theory is complex and requires some familiarity…

Biology education research provides important guidance for educators aiming to ensure access for disabled students. However, there is still work to be done in developing similar guidelines for research settings. By using critical frameworks that amplify the voices of people facing multiple forms of marginalization, there is potential to transform…

This edited volume presents innovative current research in the field of Science Education. The chapter's deal with a wide variety of topics and research approaches, conducted in a range of contexts and settings. Together they make a strong contribution to knowledge on science teaching and learning. The book consists of selected presentations from…

Real and meaningful educational ethnography requires researchers to grapple with how they come to know what they know. In "Black Boys' Lived and Everyday Experiences in STEM," KiMi Wilson invites us to understand the experiences of four Black boys attempting to learn mathematics and science in K-12 spaces. How do mitigating circumstances…

Curriculums for STEM education programs have been successfully implemented into numerous school systems for many years. Recently, the integration of arts education into such programs has proven to be significantly beneficial to students, resulting in a new method of teaching including science, technology, engineering, art, and mathematics.…

Digital integration is the driving force of teaching and learning at all levels of education. As more non-traditional students seek credentialing, certification, and degrees, institutions continue to push the boundaries of innovative practices to meet the needs of diverse students. Programs and faculty have moved from merely using technology and…

As we have come to accept the duality of physical and virtual learning spaces as a permanent feature of our educational landscape, we begin to question its validity. Is this really a dichotomy, or is it a continuum? Should this be the primary dimension around which we cluster educational experiences -- how does it intersect and interact with other…

A growing body of evidence indicates that, increasingly, the public is engaging with science in a wide range of informal environments, which can be any setting outside of school such as community-based programs, festivals, libraries, or home. Yet undergraduate and graduate schools often don't prepare scientists for public communication. This…