National Geographic Television will develop a television series (tentatively titled "Aqua Kids") and transmedia program to introduce preschoolers and kindergarteners to the wonders and value of water. The goal is to empower young children's innate sense of inquiry and increase early environmental literacy by motivating young learners to make discoveries with water, inside and outside their homes. The grant would allow the National Geographic project team to: 1) research cutting-edge practices for teaching early learners environmental literacy and water principles; 2) convene content and creative advisors; 3) test one storybook and animatic (animated storyboard) with the target audience and their parents; 4) strategize best ways to create a transmedia project that capitalizes on emerging digital platforms, reaches audiences most in need, and takes advantage of National Geographic resources, including National Geographic's ongoing global water conservation outreach missions. Insight Research Group will conduct formative evaluation using the animatic and interviews with parents to help identify barriers to extend the television experience with their children to outdoor activities and beyond. The project partners include Project WET, a youth water education project, NOAA's Office of Marine Sanctuaries, USDA Forest Service, the National Park Service as well as a number of museums and Think It Ink It Publishing. This Pathways Project will allow the project team to complete the groundwork necessary to create an innovative new multiplatform educational media resource. The Water Show will inspire outdoor science play, build inquiry and social skills and create a vital foundation for caring and respecting the most valuable natural resource, water. Fostering early appreciation for how Earth's "green parts" are wholly dependent on its "blue parts" is foundational for subsequent scientific learning and instrumental in building lasting respect for living systems and natural resources.
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TEAM MEMBERS:
Tara SorensenMichelle SullivanTierney ThysSara Zeglin
The overarching purpose of the Climate Literacy Zoo Education Network is to develop and evaluate a new approach to climate change education that connects zoo visitors to polar animals currently endangered by climate change, leveraging the associative and affective pathways known to dominate decision-making. Utilizing a polar theme, the partnership brings together a strong multidisciplinary team that includes the Chicago Zoological Society of Brookfield, IL, leading a geographically distributed consortium of nine partners: Columbus Zoo & Aquarium, OH; Como Zoo & Conservatory, St. Paul, MN; Indianapolis Zoo, IN; Louisville Zoological Garden, KY; Oregon Zoo, Portland, OR; Pittsburgh Zoo & PPG Aquarium, PA; Roger Williams Park Zoo, Providence, RI; Toledo Zoological Gardens, OH, and the organization Polar Bears International. The partnership leadership includes the Learning Sciences Research Institute at the University of Illinois at Chicago, and the Earth System Science Center at Pennsylvania State University. The partnership is joined by experts in conservation psychology and an external advisory board. The primary stakeholders are the diverse 13 million annual visitors to the nine partner zoos. Additional stakeholders include zoo docents, interpreters and educators, as well as the partnership technical team in the fields of learning innovations, technological tools, research review and education practice. The core goals of the planning phase are to a) develop and extend the strong multidisciplinary partnership, b) conduct research needed to understand the preconceptions, attitudes, beliefs, and learning modes of zoo visitors regarding climate change; and c) identify and prototype innovative learning environments and tools. Internal and external evaluations will be conducted by Facet Innovations of Seattle, WA. Activities to achieve these goals include assessments and stakeholder workshops to inventory potential resources at zoos; surveys of zoo visitors to examine demographic, socioeconomic, and technology access parameters of zoo visitors and their existing opinions; and initial development and testing of participatory, experiential activities and technological tools to facilitate learning about the complex system principles underlying the climate system. The long-term vision centers on the development of a network of U.S. zoos, in partnership with climate change domain scientists, learning scientists, conservation psychologists, and other stakeholders, serving as a sustainable infrastructure to investigate strategies designed to foster changes in public attitudes, understandings, and behavior surrounding climate change.
The University of Cincinnati Arlitt Child and Family Research and Education will conduct a two-year research investigation to document and understand young children's scientific dialog, interactions, behaviors, and thinking within expressly designed natural play environments called playscapes. Two existing environmental science-focused playscapes will serve as the informal context for the study. Pre-school children and their teachers at early childhood centers, Head Start programs and informal learning institutions such as zoos, nature centers, and museums will participate in the study. The Cincinnati Nature Center and the Cincinnati Playscape Initiative will partner with the University of Cincinnati for this research endeavor. The results of the study are expected to not only address a significant gap in the literature base related to self-directed play and young children\'s scientific thinking within playscapes environments, but the study also has the potential to inform the field more broadly about scientific learning and teaching across informal and formal contexts at the early childhood levels. Nine research questions will frame the study and seek to investigate: (a) children\'s behaviors in intentionally designed playscapes, (b) children\'s scientific thinking in intentionally designed playscapes, and the relationship between access to the playscape environment and children's attitudes about science and their own scientist identities. The study sample includes over 200 children (ages 3-5) will be recruited from local university, child care centers and head start programs. Each child will participate in research activities at one of two test sites, with sixty children participating in research activities at both test sites. As part of the study, the children will visit the test sites at least three different times and will be asked to explore the playscape environments on their own, with other children, and with their teachers. Lavalier microphones will capture the students' self-talk and dialogs with others, as they explore the specially designed playscape environments. Other data collection methods include: behavior mapping, direct observation, dialog analysis, surveys, focus groups, and curriculum-based assessments. A team of researchers, including university faculty and graduate assistants, will employ inductive, deductive, and abductive analytical methods and reasoning to analyze and synthesize the data. Concurrently, an external evaluator at the Evaluation Services Center will employ a mixed-methods approach for the formative, remedial, and summative project evaluations. An ultimate goal of the project is to use the research findings to provide a scientific base for the development of an early childhood approach that promotes scientific thinking and learning within self-directed, informal contexts.
Boston's Museum of Science (MOS), with Harvard as its university research partner, is extending, disseminating, and further evaluating their NSF-funded (DRL-0714706) Living Laboratory model of informal cognitive science education. In this model, early-childhood researchers have both conducted research in the MOS Discovery Center for young children and interacted with visitors during the museum's operating hours about what their research is finding about child development and cognition. Several methods of interacting with adult visitors were designed and evaluated, including the use of "research toys" as exhibits and interpretation materials. Summative evaluation of the original work indicated positive outcomes on all targeted audiences - adults with young children, museum educators, and researchers. The project is now broadening the implementation of the model by establishing three additional museum Hub Sites, each with university partners - Maryland Science Center (with Johns Hopkins), Madison Children's Museum (with University of Wisconsin, Madison), and Oregon Museum of Science and Industry (with Lewis & Clark College). The audiences continue to include researchers (including graduate and undergraduate students); museum educators; and adults with children visiting the museums. Deliverables consist of: (1) establishment of the Living Lab model at the Hub sites and continued improvement of the MOS site, (2) a virtual Hub portal for the four sites and others around the country, (3) tool-kit resources for both museums and scientists, and (4) professional symposia at all sites. Intended outcomes are: (1) improve museum educators' and museum visiting adults' understanding of cognitive/developmental psychology and research and its application to raising their children, (2) improve researchers' ability to communicate with the public and to conduct their research at the museums, and (3) increase interest in, knowledge about, and application of this model throughout the museum community and grow a network of such collaborations.
TERC, in partnership with the Boston Museum of Science, will investigate deaf and hard-of-hearing museum visitors' use of App-based signing math and science dictionaries delivered on the iPod Touch. The project is employing a mixed-methods design to study how and the extent to which family visitors, ages 5-12+, and classroom visitors in grades K-12 use the dictionaries to access and communicate about exhibit content and engage in activities. Study participants will visit one of two preselected exhibit areas and do several activities that have Word Lists posted on the activity panels. The Word Lists include key terms for the activity that are also included in at least one of the dictionaries. They will then do several activities that do not have Word Lists posted. A coin toss will be used to randomly assign the first group of visitors to a starting Word List condition. The second group will then begin with the alternate Word List condition. From this point on, subsequent groups will continue to alternate the starting point. Data collection will include observation, videotaping, interviews, and surveys. Results of the study will be disseminated through a report of findings, presentations and publications.
Through programs (including small group conversations, citizen conferences, and public forums) an interactive exhibition, and two research studies that address issues that are fundamental to establishing museums as places of public dialogue and deliberation, this project engages the general public, policymakers, and caregivers in deliberations around the latest early childhood development (ECD) research. It also builds on an increased understanding of the importance of ECD to expand civic engagement around this urgent social issue. The overall goal of the project is to help audiences understand child development, how environment and experiences impact development, and what we as a society can do to support our youngest citizens. Specifically, audiences explore: How the brain develops from birth until kindergarten (or age five); how a child's environment and experiences sculpt the brain, with some experiences enhancing the child's self-control and learning, and other experiences that actually impede development; and what the project audiences can do to ensure that all children have a strong foundation to learn and thrive.
The Fusion Science Theater National Training and Dissemination Program builds on the success of the Fusion Science Theater (FST) planning grant (DRL 07-32142). Madison Area Technical College, in collaboration with the Institute for Chemical Education at the University of Wisconsin-Madison, the American Chemical Society (ACS) and area science centers and museums will create a national program to disseminate the FST model which directly engages children in playful, participatory, and inquiry-based science learning of chemistry and physics topics. The primary target audience is children aged 4-11, while undergraduate chemistry students, faculty, and formal and informal educators comprise the secondary professional audience. The project will result in the development of a robust, creative, and highly visible national dissemination program. The National Training and Dissemination Program includes three deliverables. First, a Distance Performance Training Program will be developed to teach groups of undergraduate students, faculty, and educators how to perform FST Science Investigation (SI) Shows. The Training Program includes a Performance Training Package and a 3-day Performance Training Workshop. The Performance Training Package will be comprised of training videos, performances videos, scripts, rehearsal schedules, and training exercises. These materials will be pilot tested while training representatives of five groups from around the country to perform SI Shows during the Performance Training Workshop at Madison Area Technical College in summer 2012. Participants will be selected from ACS undergraduate groups, outreach specialists, and museum professionals. Workshop participants then return to their home institutions and lead their groups through the improved Performance Training Package delivered via Moodle, with support from FST team members and social networking tools. The second deliverable is the FST Methods Workshop. The Methods Workshop is designed to teach formal and informal educators to use selected methods (Investigation Question, Embedded Assessment, and Act-It-Out) in their outreach efforts and classroom teaching. Four workshops will be presented at national meetings and at the invitation of colleges, universities, and science centers. Follow-up with workshop participants will be mediated through an online forum to encourage experimentation, modification, and dissemination of a second generation of FST activities. The final project deliverable is the development and implementation of a Promotion and Recruitment Plan to connect professional audiences with FST. The Distance Performance Training Program and workshops will be evaluated using mixed methods, while embedded assessment will be utilized to measure the impact on youth participants attending SI shows to determine the overall effectiveness the Distance Performance Training. This project is designed to have important impacts on STEM education and society. The proposed dissemination program brings innovative models and methods into the hands of informal science education practitioners who can use them to engage local audiences and enhance their own teaching and communication practices. Finally the project offers likely benefits for society through the creation and dissemination of innovative practices to combat science illiteracy, diminishing pools of scientists and engineers, lack of understanding about the nature of science, and the achievement gap that exacerbates these problems. This project could be transformative in informal science education as SI Shows use theater to engage audiences in multiple aspects of science learning. It is anticipated that this project will reach up to 2,500 individuals in public and professional audiences.
The Oregon Museum of Science and Industry (OMSI), in partnership with the J. Craig Venter Institute (JCVI), proposes to develop the Zoo in You: Exploring the Human Microbiome, a 2,000 square foot bilingual (English and Spanish) traveling exhibition for national tour to science centers, health museums, and other relevant venues. The exhibition will engage visitors in the cutting edge research of the National Institutes of Health's (NIH) Human Microbiome Project (HMP) and explore the impact of the microbiome on human health. To enrich the visitor experience, the Zoo in You project will also produce an interactive bilingual website and in-depth programs including science cafes and book groups for adult audiences. JCVI will provide its expertise and experience as a major site for HMP genomics research to the project. In addition, advisors from the Oregon Health & Science University, Multnomah County Library, the Multnomah County Health Department, ScienceWorks Hands-On Museum, Science Museum of Minnesota, and other experts will guide OMSI's development of exhibits and programs. The Institute of Learning Innovation in collaboration with OMSI will evaluate the exhibits, programs, and website. Front-end, formative, remedial, and summative evaluation will be conducted in English and Spanish at OMSI, ScienceWorks, and tour venues. The exhibition's target audience is families and school groups with children in grades 4-12. Latino families are a priority audience and the project deliverables will be developed bilingually and biculturally. The Zoo in You will tour to three venues a year for a minimum of eight years. We conservatively estimate that over two million people will visit the exhibition during the national tour. This project presents a powerful opportunity to inform museum visitors about new discoveries in genomic research, to invite families to learn together, and to present and interpret health-related research findings for diverse audiences. PUBLIC HEALTH RELEVANCE (provided by applicant): Our research education program, the Zoo in You (ZIY): Exploring the Human Microbiome, is relevant to public health because it will inform exhibition visitors and program participants about the significant new research of the NIH's Human Microbiome Project (HMP). Visitors will make connections between basic research, human health, and their own personal experiences. The bilingual (English and Spanish) ZIY exhibits and programs will present research finding and public health information in enjoyable and engaging ways to reach diverse family and adult audiences.
Our Center works with students from kindergarten through graduate school and beyond. We work with teachers and scientists and combine our knowledge to inspire students to pursue careers in neural engineering and neuroscience. Program activities include summer research programs, curriculum development, school visits, teacher/student workshops, science festivals, and international student exchanges.
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TEAM MEMBERS:
University of WashingtonEric Chudler
This collaborative project between Tufts University and the Massachusetts Institute of Technology is researching and developing a new version of the Scratch programming language to be called ScratchJr, designed specifically for early childhood education (K-2). The current version of Scratch, which is widely implemented, is intended for ages 8-16 and is not developmentally appropriate for young children. This work will provide research-based evidence regarding young children's abilities to use an object-oriented programming language and to study the impact this has on the children's learning of scientific concepts and procedures. The team will develop ScratchJr in an iterative cycle, testing it in both in the Devtech lab at Tufts and the Eliot Pearson lab school and with a wider network of early childhood partners. At the end of the three-year project, ScratchJr will have been tested with approximately 350 students in K-2, 40 parents, and 58 early childhood educators. ScratchJr will have three components: 1) a developmentally appropriate interface, with both touch screen and keyboard/mouse options; 2) an embedded library of curricular modules with STEM content to meet federal and state mandates in early childhood education; and 3) an on-line resource and community for early childhood educators and parents. The research questions focus on whether ScratchJr can help these young children learn foundational knowledge structures such as sequencing, causality, classification, composition, symbols, patterns, estimation, and prediction; specific content knowledge; and problem solving skills. This interdisciplinary proposal makes contributions to the fields of learning technologies, early childhood education and human computer interaction. ScratchJr has the potential for broad implementation in both formal and informal settings.