This study examines the effectiveness of a teacher professional development program that sought to address the integration of Native American students’ cultures with classroom science teaching. Informal science education practitioners interested in reaching non-dominant populations can use this study as evidence that professional development focusing on cultural points of intersection has a positive effect.
Drawing on a survey of 454 teachers, Penuel, Fishman, Yamaguchi, and Gallagher found several components of professional development (PD) that predicted implementation of an earth science curriculum. They determined that the coherence of the PD effort and the provision of content instruction were the most important factors determining whether or not teachers implemented the new curriculum.
A two stage summative evaluation was conducted following the launch of the Mystic Seaport for Educators website, the final output resulting from the IMLS National Leadership grant entitled Mystic E-Port Digital Classroom project. The results of four focus groups, conducted in two phases, found consistent results suggesting that the project was successful at achieving all four goals as outlined in the original grant proposal. Appendix includes focus group protocol.
The findings of this study suggest that pre-service teachers do not adequately understand key concepts in climate science. They see the greenhouse effect as a problem, not as a natural phenomenon. By contrast, they inaccurately see chlorofluorocarbons as key contributors to global warming. The practical implication is that training programmes for teachers—and indeed for other learners—need to explain key terms more effectively. These programmes must also emphasize the links among causes, consequences, and solutions.
Through a critical ethnography, Birmingham and Calabrese Barton examined why and how a group of six middle school girls took civic action, defined as “educated action in science,” after studying green energy in an afterschool science program. The paper follows the students’ process in planning and implementing a carnival to engage their community in energy conservation and efficiency issues.
Lundh and colleagues compare afterschool science offerings to the model of informal science education defined in the National Research Council’s report on learning science in informal environments. Case studies explore how common site-based constraints and the support of external partners influence science program differences as seen through the lens of the NRC model.
Dabney and colleagues examine the relationship between university students’ reported interest in STEM careers and their participation in out-of-school time science activities during middle and high school. The researchers examined the specific forms of OST science activities associated with STEM career interest and the correlations among those forms.
This study focused on girls’ engagement with science and how they negotiate identities with and in opposition to science in a three-year study of community-based afterschool initiatives. Rahm conducted a multi-sited ethnography, observing girls’ whose families had recently immigrated to Montreal, Canada and were participating in a community organization creating science newsletters and science fair projects.
Some say that if we could dismantle negative stereotypes of scientists, minority students would be more likely to consider careers in STEM. But precisely what views do minority students hold? In this study, researchers examined the perceptions of 133 Native American students by analysing students’ drawings of scientists and their accompanying written explanations.
Hamlin provides a how-to guide for leveraging traditional ecological knowledge (TEK) to teach science in indigenous contexts. Her process uses the Vitality Index of Traditional Ecological Knowledge with ethnography to identify TEK. She describes how a community-driven program used TEK to expand the learning opportunities of a historically oppressed group: Maya women in Guatemala.
Briseño-Garzón analyzed interviews with 20 families after they visited Universum Museo de las Ciencias. She concluded that the benefits of visiting a science museum are “much more than science,” including spending quality time together as a family, interacting with others, learning about local culture and history, learning from each other, and, of course, learning science.
Museum educators rarely experience ongoing training. They tend to rely on their past experiences of teaching and learning to guide their interactions with learners. Allen and Crowley describe the implementation of a new school trip program that challenged museum educators’ beliefs. The program involved a five-month process of reflective practice and the iterative testing of student-centered, inquiry-based facilitation approaches.