How do informal learning organizations work with schools as part of a broader educational ecology? We examined this question through a comparative case study of two collaborative efforts whereby informal arts education organizations, a children's museum and a community-based organization, worked with an urban school district to redefine the provision of educational services for children and youth. Grounded conceptually in organizational theory, our study identified factors that enable and constrain collaboration across the formal-informal divide. We argue that examining the dynamics of cross
Twenty-four Learning Labs in libraries and museums across the country are engaging America’s youth in learning settings where they gain skills and following their passions. A new publication, Learning Labs in Libraries and Museums: Transformative Spaces for Teens, describes these innovative teen spaces. The report details the research behind the labs, the practices that support meaningful learning, and the impacts of a movement that grew with support from the Institute of Museum and Library Services and its private partner, the John D. and Catherine T. MacArthur Foundation.
This report summarizes the evaluation results from the NSF funded Eight-Legged Encounters family event that uses arachnids as a hook to draw public interests towards science. The event involves informative and hands-on activities that bridge the gap between academia and the public, extending knowledge about arachnids to children and their parents. The Bureau of Sociological Research (BOSR) at UNL was contracted to evaluate Eight-Legged Encounters. The data collection for this report involves five events and three audiences: adults, children, and the volunteers of the event. Two events were
DATE:
TEAM MEMBERS:
University of Nebraska LincolnEileen Hebets
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. The project will further develop, roll out, and conduct research on a set of materials that will introduce middle school age youth to innovative and engaging engineering challenges in the Boys and Girls Club (B&GCs) context. Building on substantial prior work and evaluation-based learning, WISE Guys and Gals - Boys & Girls as WISEngineering STEM Learners (WGG) will: (1) combine engineering design activities with the (open source, online) WISEngineering infrastructure; (2) scale-up the infrastructure; (3) engage youth in informal afterschool experiences; and (4) collect a wealth of rich data to further our understanding of how youth learn through these experiences. This work will be conducted by Hofstra University's Center for STEM Research in conjunction with Brookhaven National Laboratory (BNL), The CUNY Graduate Center's Center for Advanced Study in Education (CASE), the Boys & Girls Club of America, and 25 B&GCs in New York and New Jersey. The underlying theoretical framework builds on proof-of-concept work supported by NSF and the Bill and Melinda Gates Foundation. An open source, on-line interface (WISEngineering) provides numerous virtual tools (e.g., social networking, Design Journal, embedded assessments) that promote learning and collaboration through challenging, thoughtful, and creative work. WGG will explore how to incorporate creativity, social networking, connections to real-world STEM needs/careers, and teamwork into challenges that can be completed in a one-hour period, an activity time constraint in many B&GC settings. Staff from the clubs will participate in face-to-face and virtual professional development in an effort to build their capacity as facilitators of STEM learning. Research will focus on: (1) how activities developed for 60-minute implementation and guided by informed engineering design and interconnected learning frameworks support youth learning and engagement; and (2) characteristics of the professional development approach that support B&GC facilitators' capacity development. By the end of the project, over 6,000 middle school aged youth, the majority from groups underrepresented in STEM areas, will gain experience with engineering design as they develop engineering thinking, new STEM competencies, STEM career awareness, and an appreciation for the civic value of STEM knowledge.
DATE:
-
TEAM MEMBERS:
David BurghardtXiang FuKenneth WhiteMelissa Rhodes
For over 60 years annual Science Fairs and Engineering competitions have been held in schools and communities throughout the country, engaging large numbers of middle school students and culminating in national and international events. Science fairs are at the intersection of formal learning in school and informal science learning in other settings including science centers, after-school programs, and clubs. However, in spite of their wide implementation and long history, there are few empirical studies that have examined the relationship between student participation in these fairs and their learning and interest in science. Additionally, there have been no studies to understand the real cost of these programs relative to the student benefits. This educational research project will fill that gap in understanding. It will systematically document and describe science fair models; measure their impact on learning; and provide evidence about the costs of various models and related benefits. The findings from this study will inform a wide range of stakeholders (including teachers, science fair leaders, volunteers, parents, and businesses) about these models and how they impact students' mastery of science and engineering practices. This four-year study in all regions of the country will be conducted in two phases: Phase 1 will be a survey of 3800 middle school science teachers will define the characteristics of science fair models; Phase 2 will use those understandings to conduct case studies in 20 schools. Deliverables include handbooks for teachers and the science fair community, articles in journals summarizing findings, the Science and Engineering Practice and Interest Inventory, and a suite of data collection instruments for scoring rubrics to describe science fairs and measure their impact. Research questions will include: (1) What are the basic models of middle school science fairs? (2) To what extent does participation in a particular model enhance students' mastery of science and engineering practices and/or their interest in science? (3) What student-teacher and school-level factors contribute to or inhibit students' mastery? (4) What resources, human and financial, are required to implement an effective middle school science fair? and (5) What are the most cost-effective aspects of the science fair experience, and how can they be applied or adapted by science fair leaders and teachers to strengthen students' mastery of science and engineering practices? Findings from this study will have the potential to improve current practices in the design and implementation of science fairs and their impact on student learning; they will be widely disseminated to the various stakeholders through publications, conference presentations, and educational association channels.
Native Americans exert sovereignty over vast amounts of United States land and water resources, yet are underrepresented in the disciplines that train our nation's future land and water resource managers. Native American resource managers must walk in two worlds, accommodating both traditional and modern methods that may come into conflict. Building on an existing, NSF-funded Manoomin Science Camp, the Walking Two Worlds (W2W) project will employ a systems view of resource management in considering a broad range of resource management issues affecting the region (including its lakes and wetlands, fisheries, forestry, wildlife, and air quality), with the goal of engaging the entire community in environmental and resource management issues of immediate relevance to the community. W2W will incorporate both Western science concerning the physical, chemical, and biological worlds, and traditional environmental knowledge, culture, language, and the judgment of elders. This holistic approach will not only facilitate effective resource management for the community, it will also serve as a 'hook' for engaging students and the community in STEM. A partnership of the Fond du Lac Band (of Lake Superior Chippewa) and the University of Minnesota (UMN) planned collaboratively with the community, W2W will focus on community-inspired, participatory science research projects related to resource management and environmental science. W2W will be facilitated by local teachers, with former participants as mentors, researchers and resource manages as mentors, and UMN faculty as lecturers. W2W recognizes the critical importance of strong STEM education for natural resource management. Using a mixed-methods approach to external evaluation, the project will build knowledge on the contributions of the W2W holistic, systemic approach and theme of community resource management. This will provide the foundation for a future development project that builds a community of place-based learning and community-inspired research projects.
This project supports the development of technological fluency and understanding of STEM concepts through the implementation of design collaboratives that use eCrafting Collabs as the medium within which to work with middle and high school students, parents and the community. The researchers from the University of Pennsylvania and the Franklin Institute combine expertise in learning sciences, digital media design, computer science and informal science education to examine how youth at ages 10-16 and families in schools, clubs, museums and community groups learn together how to create e-textile artifacts that incorporate embedded computers, sensors and actuators. The project investigates the feasibility of implementing these collaboratives using eCrafting via three models of participation, individual, structured group and cross-generational community groups. They are designing a portal through which the collaborative can engage in critique and sharing of their designs as part of their efforts to build a model process by which scientific and engineered product design and analysis can be made available to multiple audiences. The project engages participants through middle and high school elective classes and through the workshops conducted by a number of different organizations including the Franklin Institute, Techgirlz, the Hacktory and schools in Philadelphia. Participants can engage in the eCrafting Collabs through individual, collective and community design challenges that are established by the project. Participants learn about e-textile design and about circuitry and programming using either ModKit or the text-based Arduino. The designs are shared through the eCrafting Collab portal and participants are required to provide feedback and critique. Researchers are collecting data on learner identity in relation to STEM and computing, individual and collective participation in design and student understanding of circuitry and programming. The project is an example of a scalable intervention to engage students, families and communities in developing technological flexibility. This research and development project provides a resource that engages students in middle and high schools in technology rich collaborative environments that are alternatives to other sorts of science fairs and robotic competitions. The resources developed during the project will inform how such an informal/formal blend of student engagement might be scaled to expand the experiences of populations of underserved groups, including girls. The study is conducting an examination of the new types of learning activities that are multiplying across the country with a special focus on cross-generational learning.
During middle school, many young people disengage from and consequently do not achieve in school-based STEM subjects. This phenomenon is more pronounced among young people in low-income communities than elsewhere. Many summer, out-of-school STEM programs are designed to offer young people opportunities to engage in hands-on, inquiry-based learning that promote interest and engagement in STEM. Research on the effect of these types of programs is limited, however. This research project seeks to fill this gap by identifying and studying practices that promote interest and engagement in STEM-related topics. The central goal of the summer STEM Interest and Engagement Study is to identify instructional practices associated with cultivating and sustaining young people's interest and engagement in out-of-school STEM summer learning programs for middle school youth. The project is based on a model of change developed from existing theory and empirical research on the cultivation of youths' interest and engagement in STEM. The project is a descriptive study that will apply multiple data collection and analytic methods, including the Experience Sampling Method (ESM), to determine instructional practices and the resulting interest, engagement, and perceptions of youth as they participate in STEM activities. In addition, survey data provided by program participants will allow the researchers to account for individual differences in preexisting interest and background factors, such as gender and ethnicity, and to measure changes in dispositions toward STEM. By better understanding these connections, practitioners can better understand how the design of their programs may influence the outcome of the participants' experience, including their education and career decisions.
DATE:
-
TEAM MEMBERS:
Deborah MoroneyNeil NaftzgerLee ShumowJennifer Schmidt
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.
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.
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.
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.