This is a Science Learning+ planning project that will develop a research plan for investigating how applying the principles of embodied cognition to the design of informal learning environments can support young children's (ages 2-6) engagement with, and understanding of, science topics and concepts. While it has been fairly well established that cognition is intertwined with the body's interaction in the physical world, the precise means of applying these ideas to the design of effective learning environments is still emerging. Experimenting with various embodied cognition activities and physical learning configurations to understand what conditions are optimal for informal learning environments for early learners is a major objective of this project. During the planning grant period, the project will identity additional practitioner/research collaborations and will develop research plans for a suite of studies to be enacted by multiple teams of informal learning practitioners and cognitive scientists across the US and UK and that will be submitted as a Phase 2 research. The primary activities of this planning period include organizing a series of workshops that bring together informal learning educators and embodied cognition researchers to engage in deep discussion and design experimentation that will inform the development and refinement of research questions, protocols, and measurement tools. These discussions will be informed by observations of young children as they interact with the River of Grass, an exhibit prototype in which principles of embodied cognition are embedded in its design. The planning period will be led by a collaborative team of informal learning practitioners and cognitive scientists from the US and UK. This group will also oversee plans for the development of a new model for informal STEM research in which a constellation of practitioner/research teams across multiple organizations investigates topics of importance to informal learning practice and research that have the potential to result in a robust body of research that informs the design of informal learning spaces.
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.
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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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.