This paper attempts to reframe popular notions of “failure” as recently celebrated in the Maker Movement, Silicon Valley, and beyond. Building on Vossoughi et al.’s 2013 FabLearn publication describing how a focus on iterations/drafts can serve as an equity-oriented pedagogical move in afterschool tinkering contexts, we explore what it means for afterschool youth and educators to persist through unexpected challenges when using an iterative design process in their tinkering projects. More specifically, this paper describes: 1) how young women in a program geared toward increasing equitable
This project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. The project will conduct a feasibility study of an informal youth STEM learning program. High school students from under served communities in New York City will use existing historical, cultural and environmental data to investigate selected UNESCO World Heritage sites. Participants will apply the skills and knowledge they have developed from their analysis of the UNESCO sites and apply them to their local communities. Participants will identify, map, and analyze their own community heritage sites, using relevant citizen science, environmental and cultural data. Throughout the program, the project will involve participants in maker-related activities. Participants will design devices to collect data, explore variables through model making, and communicate findings through models and artistic forms with the to spur both individual and community action for selected heritage sites.
The project will be implemented as a 9-month weekly after school program in Long Island City, New York. Most students from the school will be from low-income families and are youth of color. The research the question for the study is "How does access to STEM increase for historically underrepresented youth populations when culturally relevant curriculum connects citizen science and making practices?" During the first phase of the program, participants will engage with core STEM concepts and making/design processes through an engaging curriculum that explores damaged UNESCO World Heritage Sites. During the second phase, youth will identify, map, and plan enhancements for their own community heritage sites or environmental landmarks. A condensed version of the program will be piloted in the summer with youth from across the city. The Educational Development Corporation will conduct a process and summative evaluation of the project. Process evaluation, which will provide ongoing feedback to the project team, will include document review, observation of program implementation, and interviews with project partners. Summative evaluation will continue these methods, supplemented by pre- and post-participation participant surveys and focus-groups. Validated survey instruments, such as the Growth Mindset Scale, and the Common Instrument Suite (PEAR Institute) will be used. Resources from research and program practices will be disseminated through publications and conference presentations to the education research community, global learning and design fields, and practitioners from after school and other informal learning environments. Participants will share project results with their communities.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
“Tinkering EU: Building Science Capital for All” aims to develop activities and resources that support a learner-centred culture, improve science education and develop 21st century skills - all of which are fundamental for active citizenship, employability, and social inclusion. To do this, it adopts ‘Tinkering’, an innovative pedagogy developed in the USA, which is used by museums, and has proven able to create a lifelong engagement with science for everyone. Tinkering works particularly well for people who argue that “they are not good at science” or are disaffected from any formal teaching and learning process. It can be a powerful tool to tackle disadvantage. The project integrates Tinkering into the school curriculum to develop the science capital of disadvantaged youth through the use of museums. It addresses students from 8 to 14 years old (primary and junior high schools).
Coordinator: National Museum of Science and Technology Leonardo da Vinci
Partners:
University of Cambridge – UK
NEMO Science Museum – The Netherlands
Science Gallery Dublin – Ireland
CosmoCaixa – Spain
Science Center Network – Austria
NOESIS – Greece
Out-of-school settings promise to broaden participation in science to groups that are often left out of school-based opportunities. Increasing such involvement is premised on the notion that science is intricately tied to “the social, material, and personal well-being” of individuals, groups, and nations—indicators and aspirations that are deeply linked with understandings of equity, justice, and democracy. In this essay, the authors argue that dehistoricized and depoliticized meanings of equity, and the accompanying assumptions and goals of equity-oriented research and practice, threaten to
Ideas from social justice can help us understand how equity issues are woven through out-of-school science learning practices. In this paper, I outline how social justice theories, in combination with the concepts of infrastructure access, literacies and community acceptance, can be used to think about equity in out-of-school science learning. I apply these ideas to out-of-school science learning via television, science clubs and maker spaces, looking at research as well as illustrative examples to see how equity challenges are being addressed in practice. I argue that out-of-school science
This project by California State University San Marcos and their collaborators will expand and continue to innovate on a pilot Mobile Making program with the goal of developing a sustainable, regional model for serving underserved, middle-school aged youth in twelve after-school programs in the San Diego region. Evaluation of the current Mobile Making program has documented positive impacts on participants' interest, self-efficacy, and perception of the relevance of Making/STEM in everyday life, and led to a model for engaging underserved youth in Making. The work will focus on implementing the program model sustainably at greater capacity by increasing the number of undergraduate activity leaders, after-school sites, and level of community engagement. The expanded Mobile Making program is expected to engage ~1800 middle school youth at 12 local school sites, with activities facilitated by ~1020 undergraduate CSU-SM STEM majors. The sites are in ethnically diverse and economically disadvantaged neighborhoods, with as many as 90% of students at some sites qualifying for free or reduced price lunch. The undergraduate facilitators are drawn from CSU-SM's diverse student body, which includes 44% underrepresented minorities. Outcomes are expected to include increases in the youth participants' interest, self-efficacy, and perception of the relevance of Making/STEM in everyday life. Positive impacts on the undergraduate facilitators will include broadened technical skills, increased leadership and 21st century skills, and increased lifelong interest in STEM outreach/informal science education. The program is designed to achieve sustainability through innovative means such as involving undergraduate facilitators via Community Service Learning (rather than paid positions), and increased community engagement via development and support of a community of practice including local after-school providers, teachers, Makers, and University members. Evaluation of the program outcomes and lessons learned are expected to result in a comprehensive model for a sustainable, university-based after-school Making program with regional impact in underserved communities. Dissemination to other regions will be leveraged via CSU-SM's membership in the California State University (CSU) system, yielding a potential statewide impact. The support of the CSU Chancellor's Office and input from a CSU implementation group will ensure the applicability of the model to other regional university settings, identify common structural barriers and solutions, and increase the probability of secondary implementations. This work is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
This report summarizes findings from a research-practice partnership investigating STEM-rich making in afterschool programs serving young people from communities historically under-represented in STEM. The three-year study identified key dimensions related to (1) How STEM-Rich Making advances afterschool programmatic goals related to socio-emotional and intellectual growth for youth; (2) Key characteristics of programs that effectively engage youth historically marginalized in STEM fields; and (3) Staff development needs to support equity-oriented STEM-Rich Making programs.
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