Wallace and Brooks examined the culture of an elementary science education methods course conducted in a summer science camp, along with the professional identity development of the preservice teachers during their participation in the course.
To date, no national studies of science-focused out-of-school time (OST) programs have been implemented, making it difficult to get a sense of program diversity and characteristics. In this paper, Laursen, Thiry, Archie, and Crane map the national landscape of U.S. OST science, technology, and engineering programs. The findings allow the authors to describe a generalized profile for each of eight types of OST program providers.
This study sought to understand what motivates students at the high school and early college level to choose physics. It explored students’ expectations of their study of physics and their priorities for future careers. The researchers intended to contribute strategies to increase the number of females who complete university physics degrees. They also hoped to show that a wider range of perspectives needs to be represented among physics practitioners.
This paper describes the potential benefits of incorporating art into physics education. Drawing and sculpture provide a way of understanding abstract concepts. The process may also allow educators to “humanize” physics and thus make it more accessible to historically marginalized groups.
One challenge in scaling up effective educational programs is how to adjust implementation to local contexts. One solution that the authors Penuel, Fishman, Cheng, and Sabelli propose is “design-based implementation research,” (DBIR) in which researchers and practitioners collaboratively identify problems and strategies during implementation while learning from this process to support innovations in new contexts.