This research examines the Tree Investigators project to support science learning with mobile devices during family public programmes in an arboretum. Using a case study methodology, researchers analysed video records of 10 families (25 people) using mobile technologies with naturalists at an arboretum to understand how mobile devices supported science talk related to tree biodiversity. The conceptual framework brings together research on technological supports for science learning and research on strategies that encourage families to engage in conversations that support observation and
The goal of this formative study was to assess the implementation and visitor engagement with the Quarters for Conservation (Q4C) program at Seattle's Woodland Park Zoo (WPZ). The program was launched in the fall of 2011, with the goal of providing zoo visitors with the opportunity to take an action during their visit and directly contribute to wildlife conservation by choosing where to allocate a portion of their zoo admission. Evaluation questions include 1) how are visitors engaging with this program; 2) what are participating visitors taking away in terms of understanding of WPZ
A partnership between Carthage College and the Appalachian Mountain Club has delivered a successful public education and outreach program that merges natural environment topics and astronomy. Over the four years of activity, over 25,000 people have received programming. The effort has trained nature educators, permanent and seasonal AMC staff, and undergraduate physics and astronomy students to integrate diverse topical material and deliver high quality programming to the lay public. Unique to the program is the holistic nature of the material delivered - an 'atypical' astronomy program. Linking observable characteristics of the natural world with astronomical history and phenomena, and emphasizing the unique sequence of events that have led to human life on Earth, the program has changed attitudes and behaviors among the public participants. Successful interventions have included hands-on observing programs (day and night) that link nature content to the observed objects; table-talk presentations on nature/astronomy topics; dark skies preservation workshops; and hands-on activities developed for younger audiences, including schools, camps, and family groups. An extensive evaluation and assessment effort managed by a leading sociologist has demonstrated the effectiveness of the approach, and contributed to continuous improvement in the program content and methods.
This CRPA project is about research on climate change impacts in the Amazonian rain forest and about motivating youth to consider science as a career objective. The project is an exhibit in Biosphere 2 in Arizona wherein a rain forest is maintained and will be used to augment the exhibit of large photos of scientists doing research. Particular attention will be paid to female scientists to motivate young girls. Biosphere 2 and the Girl Scout Council of Southern Arizona will collaborate to attract girls through free admission days to Biosphere 2. These large photos will be equipped with sound and video so that as a visitor approaches the photo, the sounds of the forest as well as the researcher(s) will be heard. At this point the researcher, in the photograph, will begin a monologue with the visitor explaining what scientists are investigating and who the other workers are. In this monologue, the researcher will explain what they are doing specifically, why they are investigating this subject, and what they plan to derive as a scientific result. The exhibit will consist of fifty very large photographs (3x5 feet) with sound access via smart phones and headsets. In addition, there will be hands on equipment and docents for questions and discussion. The venue receives about 100,000 visitors per year consisting mainly of families, tourists, and clubs. Through this exhibit, the researchers intend to motivate youth to develop interests in STEM topics. Girls are the main target audience. For families and tourists, the exhibit communicates the message of how science is being used to determine the effect of climate change on rain forests and how that would affect other aspects of weather and the global environment.
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TEAM MEMBERS:
Scott SaleskaBruce JohnsonJoost van HarenJennifer Fields
This Pathways project will develop and evaluate a new model for a STEM career exploration program for at-risk Hispanic youth and their families in New Mexico where 46% of the population is Hispanic. The target audience includes Hispanic youth incarcerated in juvenile detention centers. The Hispanic Communications Network will partner with the Juvenile Justice Division of the New Mexico Children, Youth, and Families Department, Youth Development Inc.; and Youth Works in Santa Fe. STEM professionals from Los Alamos and Sandia labs and private sector companies in New Mexico will participate as role models. The evaluation findings will add to the knowledge base about strategies to increase interest and engagement in pursuing STEM careers among hard-to-reach Hispanic audiences including low income families, gang members and incarcerated youth. The project design includes using two main strategies: family evenings with STEM role models; and a social media and Facebook contest focusing on Green Jobs of the Future. The evaluation will use a mixed-methods approach for gathering data including brief questionnaires after the family evenings, pre-and past-activity surveys, observations, and telephone and online surveys. The evaluation will provide ongoing feedback to the project team on how well the strategies are working. The project will hold 8 family nights, involve approximately 16 STEM professionals (role models), and projects about 16 edited media submissions by the youth teams. Toward the end of the project the evaluation will comment on the viability, efficacy and potential transferability of this model to other communities.
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TEAM MEMBERS:
Carlos AlcazarTrinity TreatAlliyah NoorLynn Dierking
Through the Scientists for Tomorrow pathways project, The Science Institute at Columbia College in Chicago will test a model for preparing non-science major, pre-service elementary school teachers to deliver three ten-week informal science education modules to youth in after school programs. The initiative will bring engineering concepts, environmental science, and technology to approximately 240 urban Chicago youth (ages 10-14 years old) and their families. The Science Institute will partner with eight minority serving community based organizations and the Museum of Science and Industry, the Field Museum, and the Garfield Park Conservatory Alliance to develop and implement all aspects of the program. The goals of the program are two-fold. First, the project will develop and implement a high-quality STEM based afterschool program for under-represented youth in STEM. Second, the professional development and experience implementing the curriculum with youth in the local communities and within informal science education (ISE) institutions will extend and enrich the pre-service teachers\' STEM content and pedagogical knowledge base and better prepare them to teach science in formal and informal settings. Thirty teachers will receive specialized professional development through a seminar, course, and other support mechanisms in order to best support the implementation of the modules, while building their STEM content expertise, confidence, and pedagogical knowledge. Each module has a different STEM content focus: alternative energy (fall), the physics and mathematics of sound and music (winter), and environmental science (spring). At the end of each module, a culminating youth-led presentation will be held at one of the partnering Chicago museums. Youth will be encouraged to participate in all three modules. The formative evaluation will be conducted by the Co-Principal Investigators. Pre and post assessments, artifact reviews, and interviews will be used for the summative evaluation, which will be conducted by an external evaluator at the Illinois Institute of Technology. The project deliverables include: (a) a teacher training program, (b) an after school curriculum, and (c) media tools - DVDs, website. Over the grant period, the project intends to reach 120 youth each year, over 100 family and community members, and 30 teachers. The larger impact of this project will be the development of a scalable model for bringing relevant STEM content and experiences to youth, their families, and non-science major pre-service teachers. As a result of this project, a cadre of pre-service teachers will have: (a) increased their STEM content knowledge, (b) gained experience presenting STEM content in informal settings, (c) learned effective approaches to deliver hands-on STEM content, and (d) learned to use museum and other ISE resources in their teaching. In fact, after the grant period nearly half of the teachers will continue to work at the centers as part-time instructors, fully supported by the partnering community centers.
Water for Life (WfL) is a full scale development youth and community based program; centered on freshwater literacy, water conservation and rainwater harvesting led by the Pacific Resources for Education Learning (PREL) in Hawaii. The goals of the project are to: (a) promote an understanding of water conservation and stewardship in areas lacking adequate quality water supplies and (b) build local capacity among rural communities to develop and employ site specific freshwater harvesting strategies proven to improve water quality. Rural communities within four Pacific Island entities in the U.S. affiliated Freely Associated States (FAS) will participate in WfL activities. PREL is collaborating with a host of organizations (such as the Federated States of Micronesia National Department of Education, Marshall Islands Conservation Society, and the Micronesian Conservation Trust, etc.) to develop and implement all phases of the initiative. This work is already improving the quality of life for hundreds of people in the FAS through water conversation education and improved water quality in local areas. Working closely with site-embedded PREL staff, Core Teams at each site - consisting of 4-6 local leaders from environmental agencies, water/sanitation systems, and education institutions - participated in a 5-day professional learning immersion in May, 2013, to buld capacities to develop and facilitate water conservation and catchment activities at the four target sites in the FAS. The Core Team members at each site now are recruiting and collaborating with local community members to implement site-specific projects that both educate and provide enhanced access to high quality drinking water. Both adults and youth are now engaging in a spectrum of proejcts that address loca needs and priorities through site-specific service learning activities. The site-specific focus in each locale, determined by the local Core Team, is distinct. In Palau, the Core Team has built broader community awareness of water conservation issues, raised the issue of water security in national conversations, engaged remote communities in improving natural rainwater drainage collection systems, and produced youth-oriented educational materials focused on local sites. In Yap, the Core Team members have collaborated with public utilities to install first-flush diverters into community rainwater catchment systems on Yap proper, and now are installing these devices in rainwater catchment systems on Yap's neighbor islands. In Chuuk, groundwater springs in remote communities are being upgraded for improved storage capacity, protection against contamination, and better public access. In Majuro (RMI), public school rainwater catchment systems are being repaired, repainted, cleaned, and upgraded so that schools can and will provide adequate drinking water to students (and to broader segments of the community during droughts). Broad segments of communities, including school classes and clubs, church and civic groups, etc. are becoming increasingly involved in building better water security and resilience for their communities, in preparation for a predicted drought, predicted to hit in the winter of 2014-2015, brought on by an El Nino event now edevelopig in the eastern Pacific. Water for Life has produced a range of locally relevant educational materials, including books, pamphlets, flyers, etc., some in English and others in local languages. Posters and billboards are being produced to enhance and maintain public awareness. Infrastructure projects are enabling better collection of more, higher quality water for drinking. A full-scale water handbook is under development, and this will serve as a basis for a self-contained water 'course' that will be offered through local community colleges. The experiences of project participants are being captured, analyzed, and reported in front-end, formative, and sumative evaluations conducted by David Heil & Associates. Thousands of individuals, comprising large segments of the participating countries' populations, will be directly impacted by the project. The results will be applicable to other remote and rural communities outside of the Pacific distressed by poor water quality and ineffective freshwater harvesting systems.
The University of California, Davis Tahoe Environmental Research Center (TERC), UC Davis W.M. Keck Center for Active Visualization in the Earth Sciences (KeckCAVES), ECHO Lake Aquarium and Science Center (ECHO), UC Berkeley Lawrence Hall of Science (LHS), and the Institute for Learning Innovation (ILI) will study how 3-D visualizations can most effectively be used to improve general public understanding of freshwater lake ecosystems and Earth science processes through the use of immersive three-dimensional (3-D) visualizations of lake and watershed processes, supplemented by tabletop science activity stations. Two iconic lakes will be the focus of this study: Lake Tahoe in California and Nevada, and Lake Champlain in Vermont and New York, with products readily transferable to other freshwater systems and education venues. The PI will aggregate and share knowledge about how to effectively utilize 3-D technologies and scientific data to support learning from immersive 3-D visualizations, and how other hands-on materials can be combined to most effectively support visitor learning about physical, biological and geochemical processes and systems. The project will be structured to iteratively test, design, and implement 3-D visualizations in both concurrent and staggered development. The public will be engaged in the science behind water quality and ecosystem health; lake formation; lake foodwebs; weather and climate; and the role and impact of people on the ecosystem. A suite of publicly available learning resources will be designed and developed on freshwater ecosystems, including immersive 3-D visualizations; portable science stations with multimedia; a facilitator's guide for docent training; and a Developer's Manual to allow future informal science education venues. Project partners are organized into five teams: 1) Content Preparation and Review: prepare and author content including writing of storyboards, narratives, and activities; 2) 3-D Scientific Visualizations: create visualization products using spatial data; 3) Science Station: plan, design, and produce hands-on materials; 4) Website and Multimedia: produce a dissemination strategy for professional and public audiences; 4) Evaluation: conduct front-end, formative, and summative evaluation of both the 3-D visualizations and science activity stations. The summative evaluation will utilize a mixed methods approach, using both qualitative and quantitative methods, and will include focus groups, semi-structured interviews, web surveys, and in-depth interviews. Leveraging 3-D tools, high-quality visual displays, hands-on activities, and multimedia resources, university-based scientists will work collaboratively with informal science education professionals to extend the project's reach and impact to an audience of 400,000 visitors, including families, youth, school field trip groups, and tourists. The project will implement, evaluate, and disseminate knowledge of how 3-D visualizations and technologies can be designed and configured to effectively support visitor engagement and learning about physical, biological and geochemical processes and systems, and will evaluate how these technologies can be transferred more broadly to other informal science venues and schools for future career and workforce development in these critical STEM areas.
The National Science Festival Network project, also operating as the Science Festival Alliance, is designed to create a sustainable national network of science festivals that engages all facets of the general public in science learning. Science Festivals, clearly distinct from "science fairs", are community-wide activities engaging professional scientists and informal and K-12 educators targeting underrepresented segments of local communities historically underserved by formal or informal STEM educational activities. The initiative builds on previous work in other parts of the world (e.g. Europe, Australasia) and on recent efforts in the U.S. to create science festivals. The target audiences are families, children and youth ages 5-18, adults, professional scientists and educators in K-12 and informal science institutions, and underserved and underrepresented communities. Project partners include the MIT Museum in Cambridge, UC San Diego, UC San Francisco, and the Franklin Institute in Philadelphia. The deliverables include annual science festivals in these four cities supported by year-round related activities for K-12 and informal audiences, a partnership network, a web portal, and two national conferences. Ten science festivals will be convened in total over the 3 years of the project, each reaching 15,000 to 60,000 participants per year. STEM content includes earth and space science, oceanography, biological/biomedical science, bioinformatics, and computer, behavioral, aeronautical, nanotechnology, environmental, and nuclear science. An independent evaluator will systematically assess audience participation and perceptions, level/types of science interest stimulated in target groups, growth of partnering support at individual sites, and increasing interactions between ISE and formal K-12 education. A variety of qualitative and quantitative assessments will be designed and utilized. The project has the potential to transform public communication and understanding of science and increase the numbers of youth interested in pursuing science.
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TEAM MEMBERS:
Loren ThompsonJeremy BabendureBen Wiehe
In the Communities of Learning for Urban Environments and Science (CLUES) project, the four museums of the Philadelphia-Camden Informal Science Education Collaborative worked to build informal science education (ISE) capacity in historically underserved communities. The program offered comprehensive professional development (PD) to Apprentices from 8-11 community-based organizations (CBO), enabling them to develop and deliver hands-on family science workshops. Apprentices, in turn, trained Presenters from the CBOs to assist in delivering the workshops. Families attended CLUES events both at the museums and in their own communities. The events focused on environmental topics that are especially relevant to urban communities, including broad topics such as climate change and the energy cycle to more specific topics such as animals and habitats in urban neighborhoods.
The Children’s Museum developed From the Blue Planet to the Red Planet: Exploring Planetary Science to provide opportunities for students in grades 4 through 8, teachers, and families to learn about Mars exploration. The Museum partnered with the Connecticut Center for Advanced Technology (CCAT) on four teacher professional development modules related to aspects of planetary science: soil and plant study, air pressure, robotic exploration, and the comparison of Mars and Earth. Teachers who attended free workshops could bring students to the Museum for classroom and planetarium experiences. The Museum received support from Central Connecticut State University and technical advice from Phoenix Project scientists at JPL. The Museum created a timeline of Mars exploration history with video clips of milestones and an accompanying quiz kiosk. CCAT created virtual Mars drive-through experiences with which visitors could explore the planet. The Travelers ScienceDome Planetarium staff wrote, directed, and animated a full-dome planetarium program about the future study of Mars that was finished in December 2012. For over two years the Museum has sponsored free, monthly Mars Madness programs during which the general public can visit the exhibit, see a Mars-related planetarium program, and test out some of the hands-on activities developed for the school groups. The Museum hoped to reach a diverse audience, especially, those people who might otherwise not afford admission. We have produced four teacher professional development guides with hands-on activities, an exhibit for our facility, a dedicated website, and a planetarium program.
This report was completed by the Program Evaluation Research Group at Endicott College in October 2013. It describes the outcomes and impacts of a four-year, NSF-funded project called Go Botany: Integrated Tools to Advance Botanical Learning (grant number 0840186). Go Botany focuses on fostering increased interest in and knowledge of botany among youth and adults in New England. This was being done through the creation of an online flora for the region, along with the development of related tools, including PlantShare, and a user-friendly interface for ‘smartphones’. In January 2012, the PI
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TEAM MEMBERS:
Judah LeblangNew England Wild Flower Society