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resource project Public Programs
Many communities across the country are developing "maker spaces," environments that combine physical fabrication equipment, social communities of people working together, and educational activities for learning how to design and create objects. Increasingly, maker spaces and maker technologies are being designed to provide extended learning opportunities for school-aged young people. Unfortunately few youth from under-represented populations have had the opportunity to participate in these maker spaces. This proof-of-concept project, a collaboration of faculty from Michigan State University and the University of North Carolina, Greensboro with staff of the Boys and Girls Clubs in Lansing and Greensboro, will address two challenges faced by middle school youth from backgrounds underrepresented in engineering professions: 1) a lack of opportunities to learn engineering meaningfully and to apply it to understanding and solving real-world problems (i.e. learning), and 2) few experiences that foster the ability to see oneself as an important, contributing producer and consumer of engineering (i.e. identity). The team will develop and study an informal (out-of-school) STEM learning model to engage middle school youth from underrepresented backgrounds in experiences related to engineering-for-sustainable-communities. The model engages youth both in maker spaces and in conducting community ethnography studies to identify local problems and then to design potential solutions for them. The participants will also be connected into a broader social network of experts. Using a design-based research approach and applying social practice theory and systems theory, the work will identify how critical aspects of the learning environment shape identity work. This will yield information on the value and affect of the instructional tools that will be produced. The team hypothesizes that, by alternating over time between maker spaces activities and community ethnography studies, youth will a) reflect upon what they know and need to know to define problems and design solutions, b) develop stronger engineering identities, and c) realize the potential they have to make change in their community. Professionals in education and engineering will benefit from additional empirical evidence for how identity unfolds over time, across learning contexts, and how it promotes opportunities to learn in engineering.
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resource project Public Programs
The Exploratorium, in collaboration with the Boys and Girls Club Columbia Park (BGC) in the Mission District of San Francisco, is implementing a two-year exploratory project designed to support informal education in science, technology, engineering, and mathematics (STEM) within underserved Latino communities. Building off of and expanding on non-STEM-related efforts in a few major U.S. cities and Europe, the Exploratorium, BGC, and residents of the District will engage in a STEM exhibit and program co-development process that will physically convert metered parking spaces in front of the Club into transformative public places called "parklets." The BGC parklet will feature interactive, bilingual science and technology exhibits, programs and events targeting audiences including youth ages 8 - 17 and intergenerational families and groups primarily in the Mission District and users of the BGC. Parklet exhibits and programs will focus on STEM content related to "Observing the Urban Environment," with a focus on community sustainability. The project explores one approach to working with and engaging the public in their everyday environment with relevant STEM learning experiences. The development and evaluation processes are being positioned as a model for possible expansion throughout the city and to other cities.
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resource project Public Programs
Earth Partnership: Indigenous Arts and Sciences (EP) will develop and refine a model for integrating Indigenous and informal and formal K-20 educators in ecological restoration, project-based learning and professional development. EP will involve participants in Native habitat restoration on community spaces, school grounds and nearby natural areas as a context for intergenerational STEM learning across age, ecosystem, discipline, learning style, culture and place. EP integrates Native knowledge and core values including relationship, reciprocity, respect and responsibility with Western STEM concepts and processes. The project will integrate the expertise of university social, physical, life and learning scientists and community and tribal practitioners to design, develop and test informal STEM learning incorporating ecological restoration, citizen science and cultural diversity. EP grows out of a teacher professional development model funded by NSF and is a network that now includes participating individuals and organizations from many states. This network will enhance dissemination and provide a foundation for a larger project growing out of the results of this project. EP will build capacity of Native and non-Native informal educators and citizens to work together to generate engagement among young people and adults with ecological STEM learning and stewardship. The approach will integrate culturally authentic resources, inquiry and citizen science process skills (e.g., data collection, analysis, ecological restoration, water stewardship) in multiple learning settings. Stronger multicultural, intergenerational and community partnerships will be supported to restore aquatic and terrestrial habitats through community-based stewardship projects and Service Learning. Through EP, Native youth will be encouraged to explore STEM careers that will meet future workforce needs for managing tribal resources and become knowledgeable citizens able to use critical thinking and analysis of STEM-related issues in their communities. The project will use a developmental evaluation approach to assess project planning processes and outcomes of educational programs.
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TEAM MEMBERS: Cheryl Bauer-Armstrong Naomi Tillison Maria Moreno Delores Gokee-Rindal
resource project Media and Technology
The Cyberlearning and Future Learning Technologies Program funds efforts that will help in envisioning the next generation of learning technologies and advancing what we know about how people learn in technology-rich environments. Development and Implementation (DIP) Projects build on proof-of-concept work that showed the possibilities of the proposed new type of learning technology, and project teams build and refine a minimally-viable example of their proposed innovation that allows them to understand how such technology should be designed and used in the future and answer questions about how people learn with technology. Although for years researchers have believed technology could afford anytime-anywhere learning, we still don't understand how learners behave differently across contexts, such as home, school, and in the community, and how to get youth to identify as learners across those contexts. This proposal aims to use mobile devices and strategically placed shared kiosks to 'scientize' youth in two low-income communities. Through strategic partnerships with community organizations, educators, and families, the innovation is to get primary and middle-school students engaging in scientific inquiry in the context of their neighborhoods. Research will help determine how the technology can best be deployed, but also answer important questions about how communities can provide support to help kids think like scientists and identify with science. This project will design and implement ubiquitous technology tools that include mobile social media and tangible, community displays (collectively called ScienceKit) that are deeply embedded into two urban neighborhoods, and demonstrate how such ubiquitous technologies and related cyberlearning strategies are vital to improve information flow and coordination across a neighborhood ecosystem, in order to create environments where children can connect their science learning across contexts and time (e.g. scientizing). A program called ScienceEverywhere comprised of partnerships between tightly connected neighborhood organizations with mentors, teachers, parents, and researchers will help learners develop scientifically literate practices both in and out of school, and will demonstrate students' learning to their communities. Research will consist of mixed methods studies of use of the tools, including iterative design-based research, ethnography, and the use of participant observers from the community; these will be triangulated with usage logs of the technologies and content analysis of microblogs by the learners on their identities and interests. Discourse analysis of interviews with focal learners will orient the qualitative work on identity development, and analysis using activity theory will inform the influences of the social practices and sociotechnical systems on learner trajectories. Formative evaluation will help shed light on if and how the sociotechnical system promotes STEM literacy and STEM identity development.
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TEAM MEMBERS: Tamara Clegg June Ahn Jason Yip
resource project Media and Technology
This project will help address the urgent need for a new engineering workforce. Middle school students will be entering a workforce that is increasingly global. They will need not only technical skills but also global competencies including: the ability to investigate the world, recognize perspectives, communicate ideas, and take action. This model integrates engineering with global competencies and will provide new knowledge about how this type of learning experience impacts students and educators. This project builds on the success of the previous Design Squad project funded by NSF and developed by WGBH, which has implemented a national model for engineering education for middle school youth. This project expands the model internationally, connecting U.S. based youth with those in Southern Africa (including South Africa, Botswana, and Swaziland). The project partners are FHI 360, a non-profit organization in 60 countries around the world that helps build capacity for improving lives. They will facilitate the implementation of the afterschool programs in Southern Africa . The US dissemination partners include Promise Neighborhoods Institute, Middle Start, Every Hour Counts, and the National Girls Collaborative Project. Project deliverables include a global engineering curriculum; a web platform with videos, games, activities; an afterschool Club Guide; and a Community of Practice for informal engineering educators. A knowledge building component will provide new evidence on how high quality accessible resources and strategies can impact students' development of global competencies and engineering skills to solve real world problems. An iterative approach will be used to develop the resources including the global engineering afterschool curriculum, Club guide, and other components. The methodology uses a continuous cycle of improvement including: assess/design, test/ implement, synthesize/reflect, and utilize/disseminate. The Summative Evaluation will generate evidence about whether and how this kind of collaborative work builds children's understanding of engineering, motivation to participate, and confidence in taking informed action on behalf of pressing global problems. This will contribute to a larger body of work about whether and how engaging with global, collaborative engineering problems leads to greater self-efficacy for children with very different backgrounds, experiences, and opportunities. This project will add new knowledge about how the well-honed Design Squad model in the U.S. can be expanded with a global context and global partners. This proposal was co-funded by EHR/DRL, Engineering/EEC, and International Science and Engineering. During the project period approximately 125,000 children in the US and 5000 children in southern Africa will be reached. In the long term, with the continued global access to the resources, the reach will potentially be in the millions.
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resource project Exhibitions
This award will engage the public on the issues surrounding the interaction and interdependence of human systems and natural systems. Specifically, it will engage them on human impacts and the health of salmon fisheries in the area of Sitka, Alaska. The public in this area includes the citizens of lower portion of Alaska, K-12 students frequenting the Sitka Sound Science Center on field trips, Alaskan Natives, visiting scientists, and tourists who arrive by cruise ships. The exhibit will be placed at the Sitka Sound Science Center and will include a tank of live salmon fish, a computer game, a 10 minute video, and an artist's rendition of the fishing system and salmon life cycle. The team of scientists from the University of Washington coupled with the exhibit developer, Tenji, Inc., and the outstanding artist, Ray Troll should produce an understandable and marvelously picturesque exhibit for the visitors. This will be augmented by the highly capable staff that has considerable experience in translating science concepts to the public. Media broadcasts will broaden the reach of the exhibit. While the impact of this project is not huge in terms of numbers of people, it is an important endeavor as the people in the Sitka area of Alaska will understand their role in the food system for themselves and for the many other parts of the world. Furthermore, the cruise line visitors will derive an understanding of the fragile environment of the salmon ecosystem.
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TEAM MEMBERS: Daniel Schindler
resource project Exhibitions
This CRPA award addresses the exciting contemporary chemical science that occurs in interstellar space. The new interferometers coming online this year will enhance this new area of science and further intrigue those who engage. The plan in this award is to build an exhibit that will interest the audience with the space-based aspects, but will also engage them in understanding the chemistry that occurs in space. This is a collaborative effort between the University of Virginia and the Harvard-Smithsonian Astrophysical Observatory. The exhibit is relatively small facilitating its mobility. Thus, the authors will travel the exhibit to smaller venues in rural areas and embrace citizens who are typically under-served by educational opportunities of ISE venues. The target audience is 12-15 year old youths. Clearly, this project is meant to engage the public in both Space science and Chemistry with the ultimate hope that some individuals will even think about careers in the joint science field that is emerging from these types of behaviors.
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TEAM MEMBERS: Alex Griswold Brooks Pate Edward Murphy Robert Tai
resource evaluation Public Programs
The Designing Our World (DOW) project centers on science, technology, engineering, and mathematics (STEM) equity and addresses the need for more youth, especially girls, to pursue engineering and fill vital workforce gaps. DOW will integrate tested informal science education (ISE) programs and exhibits with current knowledge of engaging diverse youth through activities embedded in a social context. Led by teams of diverse community stakeholders and in partnership with several local girl-serving organizations, DOW will leverage existing exhibits, girls’ groups, and social media to impact girls’
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TEAM MEMBERS: Oregon Museum of Science and Industry Anne Sinkey
resource project Media and Technology
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. Nationally, the US has a shortage of computer scientists; a big part of this problem is that girls are discouraged from learning computer science at a very young age. This project tries to address this problem by creating a videogame specifically oriented towards getting middle school girls interested in learning computer science concepts outside traditional programming classes. Based on evidence that stories provide a compelling way to present complicated technical subjects and that girls in particular respond to technology careers as a way to help others, the project is building a videogame called "Gram's House" in which social workers intend to move a fictional grandmother to a retirement home unless the player can outfit her home with sufficient technology for her to remain independent. Solving puzzles in the game requires learning core computer science concepts. Research studies will be conducted to determine whether the videogame is effective at getting girls interested in computer science, at teaching computer science concepts, and whether using stories makes videogames more effective for learning. This project based on an earlier successful prototype uses an iterative research-based design process including paper prototyping, playtesting, and focus groups (N=20) to create age appropriate activities, based on the CS Unplugged series, that support learning concepts from the Data, Internet, Algorithms, and Abstraction sections of the high-school level CS Principles curriculum. A quantitative, quasi-experimental design will be used to determine the overall effectiveness of teaching CS concepts under three types of game conditions: (a) games alone, (b) games with fictional settings, and (c) games with stories. A novel assessment instrument will be developed to assess content learning and qualitative observation using a standard observation protocol will be used to gauge interest and engagement. 70-80 middle school girls will be recruited for afterschool participation in the study in two states. As part of the dissemination efforts, a facilitator's guide, rule book, and materials such as maps and storyboards will be created and shared with the game. In addition, a workshop for computer science and other teachers who are interested in using games to teach CS concepts will be conducted.
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TEAM MEMBERS: Elisabeth Gee Carolee Stewart-Gardiner
resource project Public Programs
Many communities across the country are developing "maker spaces," environments that combine physical fabrication equipment, social communities of people working together, and educational activities for learning how to design and create objects. Increasingly, maker spaces and maker technologies are being designed to provide extended learning opportunities for school-aged young people. Unfortunately, few youth from under-represented populations have had the opportunity to participate in these maker spaces, and many communities do not have the resources to establish facilities dedicated to making activities. This project, a collaboration of faculty at California State University, San Marcos and San Diego County Office of Education, the Vista Unified School District, and the San Diego Fab Lab, is a feasibility study that will work to address these needs by implementing and evaluating a pilot Mobile Making program in an underserved youth population. It will bring Making to four after-school programs in underserved communities in San Diego by using a van to take both equipment and undergraduate student mentors to program sites. At these sites, between 50% and 90% of the students are Hispanic or Latino and between 40% and 90% are eligible for free or reduced price lunch. The project employs a research-based approach to the design and implementation of the Mobile Making program, coupled with an evidenced-based plan for developing a model for future dissemination. Project objectives are: increasing the participants' interest, self-efficacy, and perception of the relevance of Making/STEM in everyday life; identifying and overcoming challenges associated with a Mobile Making program; developing a model for implementing and assessing Mobile Making in underserved communities; and disseminating materials and guides for practitioners. Development will be guided by five research-based principles for design of out-of-school time programs in underserved communities: access to resources; ethnically diverse near-peer leaders; authentic activities; legitimacy within the community; and ongoing input from participants. To inform program development and implementation, including continuous monitoring and adjustment throughout the two-year initiative, the evaluation component will use a mixed methods approach to study outcomes with respect to the students, their parents and the undergraduate mentors. Future work will apply the lessons learned in the project to guide implementations and study the model's applicability in other informal education settings. The dissemination plan will include publication of project findings, activities, practitioner's guides, and the model for implementing making programs in underserved communities.
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TEAM MEMBERS: Edward Price Charles de Leone
resource research Public Programs
Calabrese Barton and colleagues examine the beliefs and science practices of two students in a two-year study across settings. The study seeks to answer the question, “What do girls from non-dominant populations do to author themselves into or out of science, in spite of – or because of – their grades?” The study also examines how structures such as teacher support, community organizations, and school tracking systems promote or hinder opportunities for these students to author identities in science.
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TEAM MEMBERS: Kerri Wingert
resource research Public Programs
Where do kids’ beliefs about their ability to do science originate? How do these self-efficacy beliefs relate to unspoken theories about whether scientific ability is fixed or fluid? Researchers set out to answer these questions in a study of 1,225 middle and high school students.
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TEAM MEMBERS: Josh Gutwill