It has become increasingly important for microbiology educators to help students learn critical concepts of the discipline. This is particularly true in virology, where current challenges include increasing rates of vaccine hesitancy, misinformation about the COVID-19 pandemic, and controversy surrounding research on pathogens with pandemic…

Undergraduate research is an important experience that increases retention, ownership, and learning. Integrating research experiences into the classroom is the focus of course-based undergraduate research education (CUREs) and has become an important tool in curricula of many universities. This article will serve as a guide for those interested in…

This paper focuses on the context underpinning the implementation of ethno science at the K-12 school science curriculum in the context of Nepal. Since human evolution, Indigenous people have both gained scientific knowledge and practiced scientific skills. This paper refers to this knowledge as Ethno Science/ Indigenous Wisdom. However, hegemonic…

It is generally accepted that if a course or curricular transformation is to be implemented with fidelity, the users must understand how and why the transformation is different from their current practices and which aspects of the transformation are essential to achieving comparable student learning outcomes. In this article, we provide a detailed…

This theoretical article proposes using statewide weather-observing networks (Mesonets) to support data-intensive, issue-based teaching of atmospheric topics in middle and high school science. It is argued that the incorporation of this new technology and its affordances into the school curriculum can drastically change the ways that atmospheric…

We have developed and implemented a change to our General Chemistry curriculum that makes the point that "not all chemists are white men." This builds on recent textbook analyses, which showed that General Chemistry textbooks overwhelmingly and unnecessarily focus on the biographies of scientists that are white men. We demonstrate a way…

This article offers an outline of 3D science that conceptualises science around three dimensions: domain knowledge, evidence-management procedures and psychological energy. We propose that this model could underpin a rigorous, effective and motivating approach to science education in schools. We show how self-determination theory offers useful…

Although science education, including biochemistry and molecular biology education, starts before students commence university, for many students, undergraduate programs are their first real introduction to biochemistry and molecular biology. Students often report that biochemistry and molecular biology are relatively difficult topics hence the…

The "Evolving 5-19 Biology" report (RSB, 2021) presents eight key recommendations and a framework for the development of biology curricula for ages 5-19. The framework proposes organising the curriculum in 23 coherent themes that form learning progression pathways. These pathways build answers to seven 'big questions' related to big…

The 2019 "Minnesota Academic Standards in Science" (Standards) set the expectations for achievement in science for grades K-12 students in Minnesota. The standards are grounded in the belief that all students can and should be scientifically literate. The "Standards" describe a connected body of science and engineering…

The need to integrate computation into the physics curriculum has long been established: using simulations and computational modeling can enhance students' conceptual understanding, and the computational skills students acquire are both useful and necessary in their careers. However, making changes to an established physics course is a challenge…

Recent science reform advocates for the inclusion of engineering design to teach science and represents a shift to so-called three-dimensional (3D) learning. This shift often requires science instructors to adapt their current curriculum to integrate 3D learning. To support this shift, the current study illustrates the collaborative development…

Computational and atmospheric chemistry are two important branches of contemporary chemistry. With the present topical nature of climate change and global warming, it is more crucial than ever that students are aware of and exposed to atmospheric chemistry, with an emphasis on how modeling may aid in understanding how atmospherically relevant…

Curricular change within the chemistry curriculum is often difficult and slow, in part because there are numerous specific barriers to implementation. However, a larger issue is that the curriculum, and the institutions that it is connected with, are complex systems. In the implementation of a new green chemistry curriculum for the organic…

Despite the recognized effectiveness of course-based undergraduate research experiences (CUREs), there are few examples of the development of a CURE-based course in a large-enrollment undergraduate organic chemistry laboratory. Herein, we describe the development and implementation of a series of undergraduate laboratory experiments centered…