This study (1) creates a genre of exhibit-based, group scientific inquiry programs for general and low-income museum visitors, (2) determines key program characteristics that lead to learning, (3) conducts a controlled experiment to assess the levels and nature of actual transfer of such skills to other exhibits and to visitors' lives beyond the museum visit. A team of researchers and educators creates, revises, and studies Exhibit Investigations for general and underserved visitors at the Exploratorium. During Investigations, educators coach visitors in inquiry skills that are heuristics for engaging with exhibits or physical phenomena beyond the museum. Pre- and post-assessments of learner interactions with a novel exhibit are recorded and analyzed for evidence of transfer of the inquiry skills introduced during the Investigations. Exit and follow-up interviews determine long-term impact. Two versions of the Investigations-with and without mnemonic cards summarizing inquiry skills-are compared with two control conditions in a randomized block design with four conditions and 50 groups per condition. Intellectual Merit The project broadens the focus of current research on the learning of scientific inquiry skills beyond the school setting. A science museum with engaging and interactive exhibits constitutes an ideal and understudied setting for research on inquiry learning by groups. This project . describes the nature of inquiry learning in an informal learning environment . generates principles for using audience diversity to enhance learning identifies specific inquiry skills that are relevant and effective in this environment . assesses levels of transfer of such skills by visitors . compares such transfer to control groups receiving no mediation or content-based mediation The exhibit-based, group inquiries adapt best practices from formal education for use in the multigenerational, free-choice learning environment of a museum. The research yields a series of effective programs and a set of theoretical principles that account for their efficacy. Broader Impacts Project results and learning principles will be disseminated to academic, museum, and lay audiences. In total, the project serves approximately 1,000 Exploratorium visitors. The project will is presented at national and local conferences such as AERA, ASTC, VSA, and AAM, reaching museum researchers, practitioners, and a broad educational research community. Articles are submitted to peer-review journals in the fields of museum studies and science education. Project updates and the final report are posted on the Exploratorium Web site (visited by 15 million annually). Outcomes are disseminated to the Center for Informal Learning and Schools (CILS), an initiative of the Exploratorium, Kings College London, and UC Santa Cruz. A non-technical publication, distributed through the Association of Science-Technology Centers (ASTC), informs science centers around the world.
This project is a multimedia initiative designed to increase the public and youth understanding of how scientists work. Deliverables include "Pulse of the Planet" radio programs in both English and Spanish; related web news features and photo galleries at National Geographic.com; and formative and summative evaluations of the project. The project will select 27 scientists and citizen scientists (7 of them Latinos) to provide first-person "insider" stories of scientific endeavor using the "audio diary" format. They will be provided with minidisk field recording kits and digital cameras and given hands-on training by the PI. Excerpts from their diaries will be used on the nationally broadcast radio programs and website. Some of these will feature citizen science projects. The project's partners include The Self-Reliance Foundation and the Hispanic Radio Network that will produce Spanish-language adaptations of Pulse of the Planet programs; the National Geographic will create editorial features for its news website; and Citizen Science project partners including Cornell's Lab of Ornithology, and Earthwatch, among others will encourage direct participation in projects linked to the radio and web information. It is estimated that 1.25 million people will hear each of the radio programs and 50,000 unique visitors will read the stories on the web site.
The Ocean Institute (OI), in partnership with Scripps Institution of Oceanography (Scripps), Capistrano Valley Boys & Girls Clubs (BGC) and the Institute of Electrical and Electronics Engineers (IEEE), is developing "SeaTech," a multi-year, Youth-based ITEST program providing 120 female and minority middle and high school students from underserved populations with 391 contact hours of information technology (IT)-intensive oceanographic research experiences. SeaTech content focuses on understanding the acoustic behaviors of whales and dolphins, specifically, sound production, noise impacts and acoustic population census in California, the Bering Sea and the Southern Ocean. SeaTech offers a two-year core program for 13 & 14 year olds consisting of a "Breadth of Exposure" phase and a "Depth of Skills" phase totaling 299 hours. The core program has three distinct elements -- after-school clubs, field explorations and summer research institutes -- and is augmented with efforts before and after: an Early Pipeline Development phase (52 hours) for youth age 12, and Internships (40 hours) for youth age 15. The three-year ITEST grant will host three cohorts of 40 participants each. Each youth participant will receive 391 total contact hours. Through efforts directed at parents, SeaTech anticipates involving 60 parents in about 80 hours of activities each year. Coordinated through and with the expertise of Capistrano Valley BGC, recruitment will include orientation and information programs, a bilingual brochure and direct efforts by BGC staff. In addition, recruitment will happen from local schools. INTELLECTUAL MERIT: IT-based studies of marine mammal bio-acoustics will 'hook' student interest in after-school clubs, field explorations and summer research institutes. SeaTech advances understanding of the role of broader pipeline development in addressing chronic recruitment and retention problems in teen-targeted IT programs. BROADER IMPACTS: SeaTech programming has been meticulously and demonstrably integrated into the afterschool programming at the BGC. The SeaTech Club provides organizational structure to the teen activities at the BGC; however, the IT curriculum is also integrated into two nationally renowned extant structures called Career Launch and Club Tech. Findings from the project's examination of recruitment, retention and parental involvement will have broad implications to the field of informal science education.
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TEAM MEMBERS:
Harry HellingKelly ReynoldsJohn HildebrandCandice Dickens
This proposal is based on the PI's active research investigating the physical, chemical, spectroscopic and biological properties of boronic acid substituted chalcones, a subclass of flavonoid plant pigments. Functions of flavonoids include disease resistance, sunscreen protection, plant pigmentation and fertility. This project targets youth in Berrien County, Michigan providing them with hands-on activities involving natural plant pigments and their function. It also provides teachers with supplementary materials to Michigan's core science curriculum and informs the general public about the importance of research in developing a robust R&D sector in Berrien County's mixed economy. Outreach tools include the websites, DVDs, PowerPoint, poster presentations and the Benton Spirit Community Newspaper.
This planning grant is designed to increase science literacy in Native Americans by developing education materials for families that incorporate both a tribal worldview and western science. The intended impacts include an increased value of scientific awareness, acquisition of scientific principles using intergerational learning and enhanced science literacy. The project deliverables include nine toolboxes that will contain tested STEM activities and two planning booklets. Project partners include the Northwest Indian College and the Mt. Baker School District. Strategic impact will be realized through the development of culturally sensitive strategies that can be used to engage Native audiences.
The Science Museum of Minnesota (SMM) will carry out a museum-wide initiative to distribute exhibits and programs about new science and research among its core exhibits. The project goal is to redefine science for visitors as a dynamic human endeavor that is rich in discovery and relevant to their lives, as well as to position SMM as a resource for complex science and science issues. The project includes Current Science Central (500 sq ft) plus three Current Science Zones (250-300 sq ft) distributed among existing galleries (Mississippi River, Human Body, Experiment). Standardized formats (e.g., newscast scripts, quiz questions, multimedia kiosks, bulletin/graffiti boards) will provide frameworks that simplify the constant need for updating content and increase the ability to respond quickly. Target audiences are families, school groups, teachers, teens and lifelong learners from among the 850,000 annual visitors; involvement of the Youth Science Center will engage underserved audiences. Project collaborators are researchers (University of Minnesota, Augsburg College, Gentra Systems, 3M and JPL), as well as media (Physics Today, television and radio). The science museum field will benefit from the experience gained through this project.
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TEAM MEMBERS:
Liza PryorCari DwyerMark DahlagerPaul Martin
In this project, the Education Development Center and Campbell-Kibbler Research Associates Inc., are researching the impact of a set of after-school biology materials on under-represented middle school youth at the Boston Nature Center and two University of New Hampshire 4H Clubs. In response to a general need in the field to examine the relationship between learning in informal science programs and learning in school, this project studies the potential of informal contexts to enhance student engagement in the phases of inquiry, giving special attention to the role of visual representations in the early stages of inquiry. The research identifies how visual representations are directly involved in the ability of young people to discern patterns and externalize their own thinking and how these two abilities impact their science confidence and basic knowledge of the biology content in the units. To identify the potential impact of this strategy on in school learning, the in school learning of participating youth is compared to a similar group of children who do not participate in the program. Secondarily the project identifies how the results of this research influence the work of after-school program developers' use of visual tools. The program goal is to provide a rich foundation of out of school experiences for young people upon which they can more readily grasp concepts that are also introduced in the school context. Deliverables include a peer reviewed research paper, two extended biology units using digital and hand made visual representations, and a manual for developing similar programs. The summative evaluation measures the impact of the deliverables on the professional field. The curriculum will be used at hundreds of after school programs and the manual and research paper will impact program developers field-wide by influencing future programs they develop.
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TEAM MEMBERS:
Bernard ZubrowskiBryan WunarPatricia CampbellKerry Ouellet
The Board on Science Education at the National Research Council of the National Academies will develop practitioner-focused resources based on a synthesis study on Learning Science in Informal Environments (LSIE), a comprehensive review of educational research funded through a previous NSF award. Project deliverables will consist of a publication, video and digitized web resources designed to guide the application of the research findings presented in the LSIE report. The goals of this project are to support efforts to advance science education for diverse learners, to bridge research and practice, and to provide the broader informal science education communities access to research-generated knowledge. The project will greatly extend the impact of the synthesis study by making evidence-based approaches more widely available and utilized by informal science educators and insitutions.
This project will research distributed, online fantasy basketball games, which are quite popular with many kinds of players, including informal science education under-represented groups, and which entail some degree of informal statistical reasoning and decision-making strategies. The game is not playing basketball per se, but taking on the role of a team owner or coach who needs to decide how best to compose a team given necessarily limited resources. The research team will provide a method for framing and researching statistical understanding and decision making of expert and novice players, then, based on the research, will develop scaffolded techniques for helping players become more reflective on and adept with the statistical knowledge and decision making strategies they use.
This proposal builds upon the current NSF funded POLAR-PALOOZA project (#0632262) extending the "Stories from a Changing Planet" to learners around the world. This project is a tour of seven nations (China, Malaysia, South Africa, Norway, Canada, Mexico, and Australia) featuring stories told by a diverse team of polar researchers who are also compelling storytellers. A museum or science center in each country serves as the host institution and local coordinator for a suite of 1-2 days of additional education and outreach activities. There are presentations for large general audiences, supplemented by small group interactions with community leaders and local media, providing opportunities to interact directly with polar experts in order to learn about these little-understood regions and to appreciate why the Poles and polar research are relevant to their lives. Special workshops for teachers, undergraduates or other audiences take advantage of the researcher's presence on site. At any one international site, no more than 2-3 of the presenters will be Americans with the rest of the team made up of researchers from the region and host nation. In addition to the personal interactions the project will leverage the already-funded POLAR-PALOOZA deliverables, and provide museums and science centers with online access to a growing set of HD videos.
Building upon extensive prior work, the Institute of Learning Innovation is developing and implementing a conference to bring together media professionals, researchers, and policymakers that work in ISE to reflect upon recent research and develop frameworks for future practice and evaluation. Various media-related groups (print, broadcast, electronic gaming, etc,) usually have professional conferences in isolation from each other with little sharing of information and research findings. Despite the rapid blurring of boundaries between various media types in the marketplace, researchers and practitioners remain within traditional silos. This conference will bring together 80 media practitioners and researchers for a two-day national conference in order to consolidate and synthesize the research-based theories presented in a pre-conference publication. A series of 3 post-web conferences will build on the momentum generated during the initial conference and generate broader participation within the science learning media community. Rockman et al will evaluate the conference and post conference web community.
Many informal science and mathematics education projects employ multiple media, assuming that educational benefits will extend beyond those of a single medium. However, this assumption has not been tested empirically in a comprehensive way. This research uses Cyberchase (a multiple-media, informal mathematics project for 8- to 11-year-olds) to investigate synergy among multiple media components and how they interact to yield cumulative educational outcomes. Research questions: (1) How does mathematics learning from multiple media differ from learning from a single medium? (2) What outcomes derive from engagement with different types of media and what types of synergy occur? (3) How can reliable research methods be developed to assess contributions of individual media and their interactions? (4) How can informal education projects capitalize on the strengths of each medium? (5) How can media components be designed and employed to best complement each other? The research has four phases: (1) Preparatory - Recruit participants nationally with parental consent. Finalize methods and measures. (2) Naturalistic - Track naturalistic use of various Cyberchase media among 600-800 third and fourth graders. Assess mathematical problem solving and attitudes toward math. (3) Experimental - Establish causality by assigning a subset of the participants (N = 300-400) to several experimental conditions that are exposed to different combinations of Cyberchase media. Measure change in attitudes and problem solving from pretest to posttest. (4) Analysis - Employ appropriate regression and model fitting analyses to analyze the naturalistic and experimental data, and to synthesize the two. Because of the paucity of relevant existing research, this research will shed light on the educational impact of Cyberchase and on the design and assessment of multiple-media approaches to informal STEM education overall. It will advance our theoretical understanding of children's informal mathematics learning - specifically, how children learn from various media, what strengths each medium brings to bear, and what synergy might exist among media - and inform the best practice design and evaluation of future informal projects that use multiple media.
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TEAM MEMBERS:
Shalom FischRichard LeshVincent MelfiSandra CrespoSandra Sheppard