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
resourceprojectProfessional Development, Conferences, and Networks
The Self-Reliance Foundation will develop a conference that has the overarching goal of laying the groundwork for the development of strategic partnerships for involving Latino audiences in informal science learning, led by informal science institutions nationwide. Numbering over 42 million, Latinos are now the largest ethnic/racial minority group in America; in recent years, 1 of every 2 new Americans has been Latino. Educational opportunities, formal and informal, are not keeping pace. Latino students score lower on math and science achievement tests than national averages, enroll at disproportionately lower levels, and are underrepresented in undergraduate and graduate science and engineering programs. Latino families are under-represented among those who visit science centers and other like institutions. Latino students are under-enrolled in after-school programs. There is no Spanish-language NPR or PBS; there is little science available on Spanish-language media, including radio, television, and newspapers. The conference will bring together informal science institutions and science research organizations together with Hispanic organizations, media, and educational projects to review current ISE resources, identify needs and gaps, learn about best practices in designing culturally effective programs and resources, and develop new strategies and resources to enrich the informal science learning environment for Latinos.
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.
The Shared Signing Science Planning Project will develop a prototype of a web-based Signing Science Pictionary. The prototype will be piloted to families and caretakers of deaf and hard of hearing children to study the feasibility and effectiveness of the learning technology and identify the activities that are most effective in helping deaf children learn life science at informal science centers. The project team will also compile a dictionary of science terms with the intention of including the terms in a full version of the Pictionary. The final Pictionary will be comprehensive; including scientific terms from life, physical, Earth, and space science and will be presented in animated sign language accompanied by written explanations and pictorial illustrations. The project will also produce a video guide with a description of activities that parents can implement with their children. The planning project will result in a prototype with 100 life science terms of species found at the three informal science centers the children and parents will visit to test the prototype. These informal sites are hands-on and exploratory featuring marine organisms and a range of terrestrial flora and fauna to touch and interact with. To prepare for the site visits, parents and caretakers of deaf or hard of hearing children will be taught how to use the Pictionary with children through a Flash-based movie that introduces the interactive features and assists the parents in engaging with their children in three activities using the signing scientific vocabulary. The preparatory vocabulary work with the parents and children will lay the educational foundation for the visits to the informal science education sites. Families will test the initial project prototypes with deaf children using a control group for comparison. Pre-tests will be used to assess childrens' vocabulary before use of the Pictionary. Follow up tests will test knowledge of the new words and will include field observations of children in museums, zoos, and farms, where the new terms will come to life in corresponding exhibits. The results of the ongoing evaluation will be compiled into a guide for other developers of similar materials for the deaf community, and will impact the development of the final project. The project will broaden participation of an underserved audience in STEM learning and generate new knowledge about how to effectively integrate emerging learning technologies into exhibits and programs for deaf learners.The project team includes TERC and Vcom3D and collaborators from Gallaudet University Regional Center at Northern Essex Community College, the College of the Holy Cross, and the Learning Center for Deaf Children. Participating informal science education institutions are represented by the EcoTarium, Davis' Farmland, and the Stone Zoo. These partnerships provide the necessary expertise and support for the proposed project to have significant impact on advancing STEM learning in informal settings for children with hearing disabilities through the use of assistive learning technologies.
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
Abstract: The Liberty Science Center will organize a one-day symposium linked to the Giant Screen Cinema Association (GSCA) International Conference and Trade show in September 2008. The symposium will focus on the greater potential of gian screen experiences to connect society with science, building on the GSTA's symposium "Giant Screen Films and Lifelong Learning held in 1999. The program will bring together science and education experts with filmakers to stimulate and enhance more effective approaches to science learning in future giant screen films. Symposium results will be disseminated through publication and the internet, as well prepared for submission to peer-reviewed journals. An industry-specific listserv focused on lifelong learning will be created to serve as a new community-building tool for exchange among producers, distributors and exhibitors. Emlyn Koster (Liberty Science Center) and Mary Nucci (Rutgers University) will serve as aymposium chair/PI and symposium manager/Co-PI, respectively; in partnership with GSCA staff, they will be responsible for symposium management, evaluation, and dissemination of results.
Led by Washington University, Making Natural Connections: An Authentic Field Research Collaboration (DRL-0739874), is a series of two field-based informal science education programs in environmental biology targeting St. Louis area teenagers. The project aims for engagement of science research institutions and career scientists in the execution of informal science education programming, bringing real and dynamic context to the science content and allowing for deep and transparent career exploration by teenage participants. Project goals include (1) providing a model for integration of informal science education into the research and restoration projects at biological field stations and nature reserves, (2) communicating current environmental biology research to audiences outside the research community, and (3) influencing the entry of pre-college students into the science career pipeline. The project is a collaborative partnership between Washington University’s Tyson Research Center and the Missouri Botanical Garden’s Shaw Nature Reserve. The Shaw Institute for Field Training (SIFT) program trains St. Louis area high school students in scientific exploration of the natural world at Shaw Nature Reserve. During a one-week training session in June, teens are introduced to a variety of Missouri ecosystems and gain skills necessary to conduct field research, including plant and animal identifications, biotic sampling and census techniques, testing of abiotic factors, and training in the use of maps, compass and GPS. During the rest of the summer and school year, teens are involved in important research and restoration activities at Shaw, Tyson Research Center and other field research sites in the St. Louis area. Fieldwork opportunities may include invasive species management, prairie reconstruction, plant and animal inventories, and prescribed burns. The Tyson Environmental Research Fellowships (TERF) program places high school students as summer interns on ecology and environmental biology research teams at Tyson Research Center. Selected teen participants have successfully completed the SIFT program and apply their field skills to ongoing research projects at Tyson and other partnering research sites. During the summer, the four-week program provides teens with exposure to a variety of field science experiences and skills. TERF teens work alongside university scientists, post-doctoral researchers, graduate students and undergraduate students. The TERF program provides a cultural apprenticeship in university-based environmental biology research and training in scientific communication. It is an advanced summer experience modeled on the undergraduate research internships offered at Tyson. During the following school year, participants work on posters and presentations for symposia at Washington University and Tyson and at community fairs, and their posters are displayed at Shaw Nature Reserve. A national dissemination workshop for informal science educators, high school biology teachers, and research scientists provides the necessary materials and background to replicate the project design in other locales. The summative evaluation will address impacts on teenage participants (engagement, cognitive and emotional support, competence, career viability, experiential learning) and professional audiences (implementation of teen program, program components, impacts on mentoring scientists). The strategic impact of this project results from the integration of teenage immersion experiences into research activities at a university-based facility. This model of informal science training activities leading into participation in authentic research may be transferable to other STEM disciplines.
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TEAM MEMBERS:
Phyllis BalcerzakPeter RavenSusan FlowersKim Medley
Cosmic Serpent - Bridging Native and Western Science Learning in Informal Settings is a four-year collaboration between the Indigenous Education Institute and the University of California-Berkeley targeting informal science education professionals. This project is designed to explore the commonalities between western science and native science in the context of informal science education. The intended impacts are to provide informal science education professionals with the skills and tools to gain an understanding of the commonalities between native and western worldviews; create regional networks that bridge native and museum communities; develop science education programs in which learners cross cultural borders between western science and indigenous peoples; and meet the needs of diverse audiences using culturally-responsive approaches to science learning. Participants are introduced to topics in physical, earth, space, and life science, using an interdisciplinary approach. Deliverables include professional development workshops, peer mentoring, museum programs for public audiences, a project website, and media products for use in programs and exhibits. Additionally, regional partnerships between museums and native communities, a legacy document, and a culminating conference jointly hosted by the National Museum of the American Indian and the Association of Science and Technology Centers will promote future sustainability. Strategic impact is realized through participants'' increased understanding of native and western science paradigms, museum programs that reflect commonalities in the two approaches, partnerships between museums and native communities, and increased institutional capacity to engage native audiences in science. This project directly impacts 270 informal educators at 96 science centers and tribal/cultural museums nationally while the resulting programs will reach an estimated 200,000 museum visitors.
The "Successful scaffolding strategies in urban museums: Research and practice on mediated scientific conversations with families and museum educators" project seeks to simultaneously advance existing research on learning in informal settings, and to improve museum educator practice in mediating understanding with families in an urban museum. This collaboration between the Museum of Science & Industry (MOSI) in Tampa, Florida, and the University of California Santa Cruz (UCSC) will focus on three research questions: 1. What are several underlying characteristics of successful and unsuccessful strategies for scaffolding understanding of collaborative groups while interacting and talking at life science based exhibits?; 2. How can such identified strategies for scaffolding understanding of collaborative groups be best translated to inform teaching practices in museums, using teacher research as the focus?; 3. Can these scaffolding strategies be disseminated beyond MOSI in a published and replicable model for other informal learning centers? This project is designed to identify, practice and disseminate successful scaffolding strategies, studying, first, how they are used by families visiting MOSI without mediators, and, second, with museum educators. They then will collaborate with museum educator researchers (MERs) to analyze digital audio/video and other data, carefully abstracting new scaffolding tools. This is followed by practice and reflection and broader dissemination with the goal of understanding essential aspects of successful and unsuccessful scaffolding. A "teacher research model" will be used for museum educator professional development. By intertwining demonstrated and effective scaffolding research and practice with populations typically left out of informal education research, the anticipated strategic impact will be in: * Advancing current understanding of a new area of informal learning research centering on scaffolding practices; * Redefining scaffolded teaching practice with museum educator researchers; * Creating a model for conducting collaborative research with families, youth and schools typically not included in museum research and evaluation; * Contributing to overall research on collaborative sense-making conversations in museums; and * Increasing the ability of museum educators who interact with the public, their supervisors and trainers to promote self-directed learning. Once the researched strategies and methodologies for identifying those strategies are documented, future researchers can efficiently add to the body of understandings. This project will have broad implications for all informal learning, no matter the location.
To address a lack of informal science education opportunities and to increase community capacity to support STEM education for their children, Washington State University's Yakima Valley/Tri Cities MESA program, the Pacific Science Center, and KDNA Educational Radio have developed a set of informal science initiatives that offer complementary learning opportunities for rural Latino families. The goal of this four-year program is to create a sustainable informal science infrastructure in southeastern Washington State to serve families, increase parental awareness, support and involvement in science education and ultimately increase the numbers of rural Latino youth pursuing STEM-related under graduate studies. This program is presented in English and Spanish languages in all of its interconnected deliverables: Two mobile exhibits, beginning with one focused on agricultural and environmental science developed by The Pacific Science (PCS) Center; Curriculum and training in agriculture, life sciences and facilitating learning; Curriculum and training for community members to provide support to parents in encouraging the academic aspirations of their children developed by PSC and MESA; 420 Youth and parents from the MESA program trained to interpret exhibits and run workshops, community festivals, family science workshops and Saturday programs throughout the community; Four annual community festivals, quarterly Family Saturday events, and Family Science Workshops reaching 20,000 people over the four-year project; Take home activities, science assemblies, a website and CDs with music and science programming for community events; A large media initiative including monthly one hour call-in radio programs featuring science experts, teachers, professionals, students and parents, 60-second messages promoting science concepts and resources and a publicity campaign in print, radio and TV to promote community festivals. These venues reach 12,500-25,000 people each; A program manual that includes training, curriculum and collaborative strategies used by the project team. Overall Accesso la Ciencia connects parents and children through fun community activities to Pasco School District's current LASER science education reform effort. This project complements the school districts effort by providing a strong community support initiative in informal science education. Each activity done in the community combines topics of interest to rural Latinos (agriculture for instance) to concepts being taught in the schools, while also providing tools and support to parents that increases their awareness of opportunities for their children in STEM education.
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TEAM MEMBERS:
James PrattD. Janae' LandisDonald LynchMichael Trevisan