This pathways project will design, develop and test Do-It-Yourself, (DIY), hands-on workshops to introduce and teach middle school females in underserved Latino communities computing and design by customizing and repurposing e-waste media technology, such as old cell phones or appliances -- items found in the students homes or neighborhoods. The major outcome of the project will be the creation of a workshop kit that covers the processes of DIY electronics learning taking place in the workshops for distribution of the curriculum to after school programs and other informal science venues. The PIs have implemented three pilot projects over the last three years that demonstrate the ability of hands-on DIY electronics curricula to motivate and encourage students and to enable them to acquire a deeper understanding of core engineering, mathematics and science concepts. This project would extend the approach to underserved Latino youth, particular girls of middle school age. This audience was identified because of the historically low rate of participation in STEM fields by people in this group and the particular challenges that females have in acquiring knowledge in technical STEM areas. The proposal suggests that the approach of using hands-on workshops that rely on low technical requirements -- essentially obsolete or discarded electronic equipment, primarily from homes of participants -- will encourage the target audience to experiment with items they are familiar with and that are culturally relevant. The hypothesis of the project is that this approach will lower barriers to experimenting with "circuit bending" - the hand-modifying of battery-powered children's toys to build custom electronic instruments and lead to greater participation and success of females in the target group. The project will provide free workshops in two neighborhood locations and be supported by undergraduate student mentors and volunteers and staff of two community groups that are part of the project, Machine Project and Girls, Inc. Participants will demonstrate the finished projects to the workshop group, mentors and parents. Each participant will receive a copy of the workshop handbook in both English and Spanish to take home so that parents, members of the community and caregivers can supervise and participate in future projects.
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TEAM MEMBERS:
Garnet HertzGillian HayesRebecca Black
This Science Learning+ project will develop research-and-practice activities to explore how an integrated art, STEM, and society (what we refer to as STEAM) approach can expand science engagement and learning of youth aged 15-19, from low-income and non-dominant cultural communities. The project will review current knowledge, practice, and trends related to underrepresented youth, STEAM, and science engagement. The review will be used to develop: (1) A cross-setting research framework for investigating the relationship between informal STEAM learning experiences and young people's developing engagement with science. (2) Design principles for out-of-school STEAM programs that have proven effective in cultivating youth engagement with science and making relevant cross-setting connections. (3) Practitioner-friendly program evaluation tools that integrate findings from current research and practice related to cross-setting science learning of young adults especially non-dominant youth as it relates to STEAM learning experiences.
The MyBEST (Mentoring Youth Building Employable Skills in Technology) project, funded by a grant from the National Science Foundation's Informal Science Education program, concluded its three years of operation in 2006. This youth-based program was intended to provide participants with in-depth learning experiences involving information and design technologies. These experiences had a dual focus: enabling youth participants to gain fluency in using these technologies while showing them how adults apply them in work and academic endeavors. Appendix includes survey.
The purposes of the STUDIO 3D evaluation were to collect information about the impact upon student learning as a result of participating in the STUDIO 3D Project, as well as to elicit information for program improvement. Areas of inquiry include recruiting and retention, impact on project participants, tracking student impacts, and the project as a whole.
The Bronx Youth Urban Forestry Empowerment Program offered an opportunity for a two month, in-depth and field based urban forestry work experience for low income and largely minority teenagers in the Bronx. The goal of this evaluation is to understand participant outcomes as a result of taking part in this program. Evaluation consisted of: supervisor and NRS research technician’s participant observations that were conveyed over the course of the summer via periodic interview; a pre and post test questionnaire; and weekly public essays. Appendix includes instruments.
This poster, presented at the 2014 AISL PI Meeting, shows the impact of an afterschool program that brought hands-on, inquiry-based science to ELL students in a low SES area of Southern California. Data sources included observation of lessons, interviews with students, and collection of student work Results demonstrate a shift in student thinking around students' internalization of becoming a scientist and who is capable of being a scientist.
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University of California, IrvineLauren Shea
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.
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TEAM MEMBERS:
Deborah MoroneyNeil NaftzgerLee ShumowJennifer Schmidt
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.
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.
This article reports on an investigation of African American families' perceptions and experiences in an after-school family-school involvement program at two inner-city schools. Centered in the sphere of sociocultural theory and situated cognition, this study focuses on family-child relationships to improve children's literacy using oral histories and technology. It also explores a model for preparing preservice teachers to work with families. Families indicated that prior to program implementation, they had received bureaucratic invitations of school involvement and empathized with other
Afterschool and community science programs have become widely recognized as important sanctuaries for science learning for low-income urban youth and as offering them with "missing opportunities." Yet, more needs to be known about how youth, themselves, perceive such opportunities. What motivates youth to seek out such opportunities in the nonschool hours? How do youth describe the doing and talking of science in such programs? Given such descriptions, how do youth perceive the role of these programs in their lives? This paper relies on stories from three youth drawn from a multisited
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TEAM MEMBERS:
Jrene RahmMarie-Paule Martel-RenyJohn Moore
What are the effects of globalization and how are these manifested in local communities and in the learning of science there? These questions are unpacked within one local community in the United States, a place called “Uptown” where I examine the educational opportunities and pathways in science that are available for low-income Black American girls. The data comes from eight years of work both as an after-school science education program director and researcher in Uptown. The results suggest that globalization is taking hold, both in the social and economic circumstances of the community and