Botanic gardens are popular destinations for school visits to learn about plant-based science. However, little is known about teaching and learning in such settings, in particular about school visits guided by professional botanic garden educators (BGEs). The purpose of this study was to identify the pedagogical moves of the BGEs during guided school visits. More specifically, this study follows a qualitative research design, investigating six elementary school groups (7- to 11-years old) guided by three BGEs. The guided visits were videotaped and the transcripts analyzed in order to find out
Adolescents face many conflicting messages and influences related to high-risk behavior. Choices confronting middle school students often have the potential for adverse effects on their overall health and well being. Montshire Museum proposes to develop an educational outreach program to allow students an opportunity to learn about key health issues in a context that is based on high-quality research and offers hands-on inquiry and self-directed investigations. The proposed educational outreach program will serve students in grades 5-8 in rural Vermont and New Hampshire schools. The project team will create four health education modules, each one related to current NIH-supported research by faculty at Dartmouth Medical School (DMS). DMS researchers will collaborate with Montshire Museum's science educators in developing the modules, connecting with students and teachers, and providing support for all aspects of the project. For each module, the project team will support hands-on classroom investigations and independent research using materials, objects and exhibits developed specifically for the program. In addition, professional development institutes for middle school health and science educators will provide science content and instructional strategies needed to successfully implement health science lessons that are aligned with national and state standards for health and science education. The curriculum materials developed for school-based programming also create opportunities for broader public outreach. Montshire's educators will adapt them for special family activities and presentations within the museum setting. The educational curriculum will be designed to provide all participants with information that will assist in making personal health decisions in the subject areas; raise participants' awareness of the ways that culture and media affect their choices; and expose participants to the interesting and relevant research taking place locally, while increasing their understanding of the diversity of health science careers and research processes. A thorough process of formative and summative evaluation will enable the project team to take an iterative approach to curriculum development and to provide the best possible learning experience for participants.
Recent biomedical research has transformed scientific understanding of human biology. But many of these advances haven’t filtered into public awareness, hindering our ability to make good health-related decisions. A new educational program ‒ Biology of Human ‒ will help the public, particularly young people, better understand advances in biomedical research. This innovative, learning research-based science education program is strategically designed to increase awareness of and understanding about new biomedical research developments pertaining to human biology. Biology of Human will provide a sophisticated science education outreach package for students aged 11 to 15 and adults, including parents and educators. The project's goal is to leverage the latest biomedical information and innovations, a dynamic suite of educational and dissemination strategies, and research-driven approach grounded in sociology to broadly educate youth and adults about human biology. A team led by the University of Nebraska State Museum, the Department of Sociology at the University of Nebraska-Lincoln, and the NIH/NCRR-funded Nebraska Center for Virology (a Center of Biomedical Research Excellence) will work with science writers, kids, and educators to complete three specific aims: 1) stimulate interest in and understanding of biomedical research's importance to diverse individuals' health, communities, and environments; 2) establish partnerships among science educators, biomedical researchers, science journalists, and others to create dynamic educational resources focused on biomedical research developments and human biology; and 3) increase youths' interest in biomedical science. Biology of Human will provide adults and youth with several simultaneous, complementary options for learning about how biomedical research has helped us understand human biology including essays, books and blogs; entertaining and scientifically accurate mobile and tablet apps; activities and graphic stories; and a Web site that complements and supports the project's professional development programs. More than 175,000 youth and adults are expected to be directly impacted through this effort.
With the success of open access publishing, Massive open online courses (MOOCs) and open education practices, the open approach to education has moved from the periphery to the mainstream. This marks a moment of victory for the open education movement, but at the same time the real battle for the direction of openness begins. As with the green movement, openness now has a market value and is subject to new tensions, such as venture capitalists funding MOOC companies. This is a crucial time for determining the future direction of open education. In this volume, Martin Weller examines four key
The Open University's "Innovating Pedagogy Report" is an example of exploring innovative topics while giving oneself permission to be a bit less academic. In the report, authors choose 10 topics and write several pages on each, deliberately avoiding citing papers and supporting each individual point. This third report proposes ten innovations that are already in currency but have not yet had a profound influence on education. You can see a summary of each innovation at the menu on the right. Please contribute your comments on the report and the innovations.
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Mike SharplesAnne AdamsRebecca FergusonMark GavedPatrick McAndrewBart RientiesMartin WellerDenise Whitelock
This article is a case study describing how one science teacher makes everyday science in the community and classroom science intersect. This article is useful to help science educators relate information from home and neighborhoods to scientific content. The concept of transformative boundary objects is introduced in this article and can aid educators design projects that incorporate important science going on in their communities to foster long-term public engagement in science.
Data from 15 countries suggest that positive parental attitudes toward science are associated with higher student achievement in science. The findings also indicate that socioeconomic status has no effect on the relationship between parental attitudes and student achievement: Poorer students benefit just as much from positive parental attitudes as richer students.
Gruenewald blends critical pedagogy and place-based education into a critical pedagogy of place. Critical pedagogies challenge the assumptions implicit in the dominant culture. Place-based education aims to educate citizens so they can influence their social and ecological spaces. Together, these perspectives provide a framework that enables citizens to act both locally and globally to protect their cultures and environments.
The adoption of the Next Generation Science Standards (NGSS) means that many educators who adhere to model-based reasoning styles of science will have to adapt their programs and curricula. In addition, all practitioners will have to teach modeling, and model-based reasoning is a useful way to do so. This brief offers perspectives drawn from Lehrer and Schauble, two early theorists in model-based reasoning.
Beyond explicit behavioral rules, there are typically unspoken codes of conduct present in classrooms that shape interactions between students and teachers. In this paper Donnelly, McGarr, and O’Reilly explore how the classroom norms behind these interactions can stifle or facilitate the implementation of inquiry-based science education.
In-class projects can be an effective way for students to learn subject material that relates to authentic problems people address outside of classrooms. Jurow investigated middle-schoolers’ participation in an in-school math project based on the premise of creating a research station in Antarctica. Students’ engagement with the project and meaning making with math content shifted as students navigated through the different and often competing figured worlds of the classroom and “Antarctica.”
In this case study, Calabrese Barton and Yang describe how a young person’s strong interest in science (specifically reptiles) outside of school went unrecognized by his school teachers and his family as an aptitude for science. The authors describe how the prevailing view of science, framed in the context of the culture of power, can narrow learners’ perceived opportunities to pursue academic or professional pathways in science.