This poster presented at the 2014 AISL PI Meeting describes a project that uses out-of-home (OHM) media to improve the public understanding of science. It features multimedia installations located in public spaces such as Boston's T.
Following on the outcomes of an NSF-funded conference to this project's principal investigator, a team of educators, scientists, and communication experts from the University of Massachusetts Lowell, University of Massachusetts Boston, Hofstra University, the Boston Museum of Science and other professionals is implementing a full-scale development project to investigate the impact of an Out-of-Home Multi-Media (OHMM) exhibit on adults riding Boston's subway system (the "T"). The project's goal is to design, implement, and study the efficacy of an OHMM model for free-choice science learning about our changing climate. A rotating exhibit of twelve specially designed placards, posters, as well as virtual, web-based learning resources linked to the exhibit content will potentially engage over 420,000 adult riders per day along two of the T's four lines. Wireless access throughout light rail systems and the rise of smart phones represent a confluence of factors making an innovative form of engagement possible. The work is positioned to test this new model for informal science education and potentially could be expanded in Boston and into other cities around the country.
This paper focuses on an early stage of developing curricular materials to support students' learning of scientific inquiry. The materials being developed and tested, called Classroom FeederWatch (CFW), aimed to support science inquiry and were developed by a collaborative team of private curriculum developers and scientists (ornithologists). Inquiry dimensions were influenced at the outset by the newly released National Science Education Standards (National Research Council, Washington, DC: National Academy Press, 1996) and by prior successful experiences of ornithologists with inquiry
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TEAM MEMBERS:
Deborah TrumbullRick BonneyNancy Grudens-Schuck
This poster from the 2014 AISL PI Meeting describes the Indianapolis/City as a Living Laboratory project, a city-wide civic collaboration engaging in cross-sector research that builds on prior research in informal science learning in public settings. It focuses on creating place-based science learning experiences in public settings.
This Pathways project, led by Hubbard Brook Research Foundation (HBRF), develops and pilots a model to foster engagement and learning among diverse stakeholders related to timely ecosystem, social, economic, and policy issues in rural regions of New England's Northern Forest. As such, this project seeks to serve as a model for how other rural areas across the US that have pressing concerns that relate to science, technology, mathematics, and engineering (STEM) may partner with scientists, community members, and local organizations to better understand and become involved in regional issues. Research carried out for more than 50 years at the 7,800-acre Hubbard Brook Experimental Forest?among the longest-running ecosystem studies in the world?has significant implications for decision making at local as well as national levels on topics including climate change, environmental stresses on tree physiology, biomass energy, and invasive pests and pathogens. By employing a Pubic Engagement with Science approach, the project goals focus on learning and equitable participation by both public audiences (local communities and organizations) and professional audiences (scientists who want to engage in informal science learning). In this case, "equitable" means valuing the experiences and knowledge that diverse people have. "Learning" is designed to occur for all participants, such that everyone has a deeper, broader, and more nuanced understanding of STEM, the regional issues, and opportunities for the future. HBRF has designed a three-part model that includes multi-stakeholder dialogue events, workshops and dialogues with scientists working in the region, and regional capacity building for supporting outcomes of the dialogues and workshops. The project evaluation aligns closely with the Public Engagement with Science approach and project goals. As such, over the course of project activities, the evaluation measures both the public's learning and capacity to engage with other stakeholder around regional issues as well as those of the scientists. In addition, the evaluation will document the strategies and capacities of the HBRF model to broaden and sustain productive interactions among diverse regional stakeholders. Dissemination of this pilot project's findings include a case study reflecting on the process, lessons learned, and potential best practices related to the PES model as well as presentations by project leadership at community, scientific, and educational meetings. The pilot would then provide a foundation for an on-going, expanded effort for HBRF in the Northern Forest and/or an expanded effort in the region around a set off issues. In either case, the full-scale project would build from the refined model as well as the capacity built through the pilot.
A midpoint progress poster on the Sparks of Discovery Project which connects UW-Madison NSF researchers to produce interdisciplinary science investigations that will be/have been implemented in a number of settings, including participants from underrepresented groups in science. Wisconsin Alumni Research Foundation (WARF) along with the Morgridge Institute for Research staff support the project and implement the education programs at the Wisconsin Institutes for Discovery. This poster was presented at the 2014 AISL PI Meeting in Washington, DC.
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University of Wisconsin, MadisonTravis Tangen
This CRPA award addresses the issue of multidisciplinary science and the public's awareness of the ideas. The PIs believe that the prevalence of multidisciplinary science is high and growing fast. Thus, the public and particularly the younger generations need to understand these concepts and to begin thinking in those terms. Thus, they will derive hands-on modules for three age groups that are age appropriate. The project team includes 7 NSF funded researchers who do multidiscipline-based research in biology, mathematics and engineering. These modules will be tested at the Boy and Girls Club of Dane County prior to being exhibited at the Madison Children's Museum and the Aldo Leopold Nature Center. Further, the local PBS TV station (WPT) will air some of the demonstrations giving the project more visibility and impact. Each set of modules designed for the three age groups shall be evaluated separately using age specific goals and objectives. The project is a collaboration between 7 scientists and engineers, the Boys and Girls Club of Dane County, the Aldo Leopold Nature Center, the Madison Children's Museum, and the Wisconsin Institutes of Discovery of the University of Wisconsin.
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. It highlights the goals, audience, outcomes, and lessons learned for a pathways project to develop a model for producing scientific news reports in a variety of media formats on a range of topics of keen interest to rural and Native American communities in Montana. Cultural differences and geographic isolation influence opportunities to provide STEM content to these communities, yet these communities are facing perplexing decisions about exploitation of their environmental resources. The poster highlights the successes of
This poster from 2014 AISL PI Meeting describes a project that studies how 3-D visualizations can most effectively be used to improve public understanding of freshwater lake ecosystems and earth science processes.
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University of California, DavisGeoff Schladow
This poster was presented at the 2014 AISL PI Meeting held in Washington, DC. The goal of the project is to establish practices for combining public participation in scientific research (citizen science) with DNA-based species identification (DNA barcoding) to scale-up and improve the accuracy of research projects that monitor animal and plant species in the sea and on land as they respond to climate and environmental changes.
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Mount Desert Island Biological LaboratoryKaren James
Research chemists from the Center for Enabling New Technologies Through Catalysis (CENTC) worked collaboratively with the Liberty Science Center (LSC) to develop a hands-on activity to educate visitors about how small molecules derived from petroleum feedstocks are used to make larger molecules that are then utilized in the production of everyday consumer goods. Researchers, faculty, and students provided the chemistry content and LSC worked with Blue Telescope Studios to create a user-friendly program for the Ideum Multitouch Table. The resulting “Molecule Magic,” an engaging and intuitive
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Center for Enabling New Technology Through Catalysis (CENTC)Abby O'Connor