This is a Science Learning+ planning project that will develop a plan for how to conduct a longitudinal study using existing data sources that can link participation in science-focused programming in out-of-school settings with long-range outcomes. The data for this project will ultimately come from "mining" existing data sets routinely collected by out-of-school programs in both the US and UK. 4H is the initial out-of-school provider that will participate in the project, but the project will ideally expand to include other youth-based programs, such as Girls Inc. and YMCA. During the planning grant period, the project will develop a plan for a longitudinal research study by examining informal science-related factors and outcomes including: (a) range of educational outcomes, (b) diversity and structure of learning activities, (c) links to formal education experiences and achievement measures, and (d) structure of existing informal science program data collection infrastructure. The planning period will not involve actual mining of existing data sets, but will explore the logistics regarding data collection across different informal science program, including potential metadata sets and instruments that will: (a) identify and examine data collection challenges, (b) explore the implementation of a common data management system, (c) identify informal science programs that are potential candidates for this study, (d) compare and contrast data available from the different programs and groups, and (e) optimize database management.
Young people's participation in informal STEM learning activities can contribute to their academic and career achievements, but these connections are infrequently explicitly recognized or cultivated. More systemic approaches to STEM education could allow for students' experiences of formal and informal STEM learning to be aligned, coordinated, and supported across learning contexts. This Science Learning+ planning project brings together stakeholders in two digital badge systems--one in the US and one in the UK--to plan for a study to identify the specific structural features of the systems that may allow for the alignment of learning objectives across institutions. Digital badge systems may offer an inventive solution to the challenge of connecting and building on youth's STEM-related experiences in multiple learning contexts. When part of a defined system, badges could be used to represent and communicate evidence of individual learning, as well as provide youth and educators with evidence-supported indicators for other activities in the system that might be interesting or valuable. Properly designed and supported badge systems could transmit critical information within a network of informal STEM programs and schools that (1) recognize context-dependent, interest-driven learning and (2) provide opportunities to explore those interests across multiple settings. This project advances the field of informal STEM learning in two ways. First, the project documents and analyzes the processes by which two small groups of informal science education organizations and schools negotiate the meaning and value of badges, as proxies for learning objectives, and how they decide to recognize badges awarded by other institutions. This process builds capacity within the target systems while also beginning to identify the institutional, cultural, and material capacity issues that facilitate or constrain the alignment process. Second, the project conducts a pilot study with a small number of youth in the US and UK to investigate factors associated with an individual youth's likelihood of: a) identifying badges of interest; b) connecting the activities of various badge systems to each other and to non-badging institutions, such as school or industry; c) determining which badges to pursue; and d) persisting in a particular badge pathway. Findings from this pilot study will help identify institution- and individual-level factors that might be associated with advancing student interest and progression in STEM fields. Deepening and validating the understanding of those factors and their relative impact on student experiences and outcomes will be the focus of investigations in future studies.
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James DiamondNew York City Hive Learning NetworkMOUSEDigitalMeKatherine McMillan
The "Mentored Youth Building Employable Skills in Technology (MyBEST)" project, a collaboration of the Youth Science Center (YSC) and Learning Technology Center (LTC) at the Science Museum of Minnesota, is a three-year, youth-based proposal that seeks to engage 200 inner-city youngsters in learning experiences involving information and design technologies. The goal of the project is to develop participants' IT fluency coupled with work- and academic-related skills. The program will serve students in grades 7 through 12 with special emphasis on three underrepresented groups: girls, youngsters of color, and the economically disadvantaged. Project participants will receive 130 contact hours and 70% will receive at least 160 hours. Each project year, including summers, students participate in three seasons consisting of five two-week cycles. Project activities will center on an annual technology theme: design, engineering and invention; social and environmental systems; and networks and communication. The activities that constitute project seasons include guest presenter workshops; open labs facilitated by guest presenters, mentors and adult staff; presentations of student projects; career workshops and field trips. The project cycles feature programming (e.g., Logo computer language; Cricketalk), engineering and multi-media production (e.g., digital video; non-linear editing software). Each cycle will interface with an existing museum-related program (e.g., the NSF-funded traveling Cyborg exhibit). Mentors will work alongside participants in all technology-based activities. These mentors will be recruited from university, business, community partners and participant families. Leadership development is addressed through teamwork and in the form of internships and externships. Participants obtain work experience related to technology in the internship and externship component. The "MyBEST" project will serve as a prototype for the Museum to test the introduction of technology as central to the design and learning outcomes of its youth-based programs. An advisory board reflecting expertise in youth development, technology and informal science education will guide the program's development and plans for sustainability. Core elements of the "MyBEST" program will be integrated into the Museum's youth-based projects sponsored by the YSC and LTC departments. The Museum has a strong record of integrating prototype initiatives into long-standing programs.
President Obama announced in April 2013 that the Corporation for National and Community Service (CNCS) would launch a STEM AmeriCorps initiative to build student interest in STEM. A RFA is currently being prepared to be released in the late fall of 2013. This project will engage in quick response research to identify an evaluation and research agenda that can begin to inform the program launch. Thus, the timeframe for informing the initial stages of STEM AmeriCorps is relatively short, and the creation of an evaluation and research agenda is very timely. The products from the RAPID proposal are: (1) a review of the evaluation and research literature on the use of volunteers and/or mentors to build students' interest in STEM; (2) to convene a workshop to identify evaluation and research priorities to guide the initiative; and (3) a summary evaluation agenda that identifies promising directions along with the strength of evidence around key issues.
Research in experimental and developmental psychology, cognitive science, and neuroscience, suggests that tool fluency depends on the merging of perceptual and motor aspects of its use, an achievement we call perceptuomotor integration. We investigate the development of perceptuomotor integration and its role in mathematical thinking and learning. Just as expertise in playing a piano relies on the interanimation of finger movements and perceived sounds, we argue that mathematical expertise involves the systematic interpenetration of perceptual and motor aspects of playing mathematical
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Ricardo NemirovskyMolly KeltonBohdan Rhodehamel
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
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University of Nebraska LincolnEileen Hebets
To better help museum visitors make sense of large data sets, also called “Big Data”, this study focused on the types of visual representations visitors recognize, and how they make meaning (or not) of various visuals. Individual adults and youths were shown five different data visualizations (one from each of five categories), one at a time, and asked if the visualization looked familiar and how it was read. This study found that Context and previous experience matters. Participants of all ages are familiar with a wide variety of visual displays of data. If a participant encounters a visual
To better help museum visitors make sense of large data sets, also called “big data”, this study focuses on what museum visitors felt individual layers of a visual (alone and in combination with other layers) were communicating to them as the visual was constructed or deconstructed layer by layer. A second, smaller study, collected data to better understand how adult visitors would construct large data visualizations. This study was concerned with how people make sense of “big data” in their daily lives and how they engage with reference systems. The primary study used four different “big data
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.
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.