A practical guide containing descriptions of 11 Tinkering activities for adult learners. It can be used by community development and informal learning practitioners working with adult groups. Some of the activities were newly developed while others were adjusted from already existing and tested activities. Special focus is given to activities suitable for adults from different backgrounds, taking into account different needs, interests and motivations. This publication is a product of Tinkering EU: Addressing the Adults, funded with support from the Erasmus+ Programme of the European Union.
This poster was presented at the 2021 NSF AISL Awardee Meeting.
Programming includes
Neighborhood Walks led by teams of scientists/engineers and artists
Community Workshops, Local Artist Projects, and Youth Mentorship focused on neighborhood and citywide water issues
Intergenerational participation, from seniors and adult learners to young adults, teens, and middle schoolers
This document is aimed primarily at Informal Learning (IFL) educators working with adult learners from disadvantaged and underserved communities, who wish to:
exploit the inclusive nature of Tinkering to create engaging and relevant STEM learning experiences for adult learners and their families
better understand how and why collaboration and co-design with community organisations can help develop more inclusive programming in STEM learning for adults.
It can also serve as a useful reference for community leaders and adult educators wishing to collaborate with the IFL sector
Makerspaces are learning environments that engage participants in authentic science and engineering practices, using hands-on and collaborative approaches to support activities and projects that foster creativity, interest, and skill development. Recently there has been a rapid growth of makerspaces in schools and in informal places like museums, libraries, and community centers. However, many of these spaces are not accessible to all members of society. This project will produce a model for a STEM makerspace that focuses on increasing access. The model has four critical components that operate together: affordable housing, informal STEM learning, maker education, and multi-generational learning. This project will develop and study the community-based, multigenerational makerspace model for Bayview Towers, a 200-unit affordable housing complex in Connecticut. The Multi-Gen STEM Makerspaces project brings together CAST, a non-profit education research organization, the NHP Foundation/Operation Pathways, a national affordable housing provider, and the Boston University Social Learning Lab, which researches the social context for STEM learning. The project will produce a Multi-Gen Maker Playbook comprised of an educational guide for a series of four-week workshops around different themes and modes of making. The Playbook will also serve as a program model that guides similar communities on how to create and run sustainable and thriving maker programs of their own. Families in the Bayview Towers community will build an understanding of science, technology, engineering, and mathematics (STEM) concepts through participation in an onsite makerspace. Families will relate what they are doing through making to longer-term goals connected to STEM learning, education, and careers. The project will also enable the engagement of individuals in the co-design (individuals provide creative contributions) of making that can be translated into community structures and values that support a sustainable makerspace. The affordable housing context will provide understanding of individual and other social factors that impact learners' sense of STEM identity. The project will support mobility from poverty by including STEM learning as part of the resident services.
The research will examine how low income communities access, engage, and learn in makerspaces, and relate their learning to relevant goals. The team will use design-based research (DBR) whereby participants and researchers work together to design interventions intended to explore theory through cycles of enactment, analysis, and revision. The DBR research will answer the following questions:
In what ways, if any, does the model support residents experiencing STEM learning as consequential?
What kind of making goals do residents set and how do they embed STEM in these goals?
If residents experience STEM learning as consequential through the workshops, do they also see the relationship between their making goals and longer term goals?
Do those residents that use the makerspace more frequently experience more positive outcomes in terms of consequential STEM learning?
How do the various makerspace structures - training of facilitators, dedicated space and equipment, Playbook - support the model?
Are groups of residents participating regularly in the makerspace and if so, who is in these groups? Do these groups start to identify as a maker community? Is the community finding the makerspace of value?
In what ways does the organization and operations of the makerspace support building a sustainable model for multigenerational and consequential learning?
Participants will include 90 youth and 90 adults from the resident community at Bayview Towers. Research data to be collected includes open-ended response measures for scoring residents' interpretation, analysis and understanding of each workshop elements. Also, interview protocols will be used to guide the refinement of the Multi-Gen Maker Playbook features and analyze usability, feasibility, engagement and user experience of the Multi-Gen Maker Playbook within the platform. The program will use semi-structured interview protocols on participants' goals and STEM identity and focus group protocols on community maker values and makerspace structures. Additionally, a Likert-style survey on STEM identity will also be adapted from the Science Identity Scale. Project evaluation will examine the overall achievement of program goals and objectives. Project results will be communicated by traditional means of dissemination to scholars and practitioners. The team will also create targeted digital media, including online articles, podcast interviews, and blog posts, to reach a broader audience.
This Innovations in Development award 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.
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.
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TEAM MEMBERS:
Sam Catherine JohnstonKathleen CorriveauJess GropenKim DucharmeKenneth White
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program 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 aims to understand ways to empower Latinx families (adult caregivers) to feel confident in their ability to support their middle school-aged girls in science and engineering activities. The project involves seven weeks of family programming around rockets or urban farming, as well as separate conversation groups for adult family members and girls. The project is relevant for several reasons: females and Latinx individuals are both underrepresented in science, technology, engineering, and math (STEM) coursework and careers; girls tend to lose interest in STEM by middle school age; and adult family members may have an impact on their children's attitudes and interests. The project partners with school districts and nonprofit organizations in Arizona and California.
This multidisciplinary project's priority is broadening participation, with a focus on increasing Latina girls' science and engineering interests through Family Project-Based Learning Activities, Conversation Groups, and a cultivated Community of Learners. It is based on the frameworks of Social Cognitive Career Theory and Community Cultural Wealth. The project aims to empower families (adult caregivers) to feel confident in their ability to support their daughters in science and engineering activities, which is often low especially among Latinx parents. The project will develop and evaluate two out-of-school enrichment methods for aiding families in encouraging and supporting their daughters in science: Family Problem-Based Learning Activities, which focus on rockets and urban farming, and Conversation Groups, which provide information and discussion for separate groups of parents and girls. A series of pilot studies will be conducted with 80 families to iteratively evaluate and improve the materials and procedure prior to the main study with 180 families, featuring a factorial design with a control group.
The materials developed and research findings may inform similar projects, especially those for students from culturally and linguistically diverse backgrounds and projects seeking to enhance the role of families in learning. The hypothesis guiding the project is that the greatest gains will be produced with the synergistic combination of enrichment methods. Another component that can potentially have broad impact is working to create environments where Community Cultural Wealth is recognized and enhanced through interactions of different families, creating Communities of Learners. This can inform projects that recognize the importance of community and/or that seek to use culture as an asset. The proposed study will engage three geographically distributed universities and several community partners. It will also provide university students and community leaders opportunities for work on instructional design, implementation, and research. The team will disseminate their findings and methods through multiple avenues to reach researchers, parents, leaders, curators, and educators in informal and K-12 settings.
This Research in Service to Practice 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.
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TEAM MEMBERS:
Katherine Short-MeyersonPeter RilleroPeter MeyersonMargarita Jimenez-SilvaChristopher Edwards
Tinkering is an approach to learning increasingly adopted within informal learning settings to engage people with STEM learning (science, technology, engineering and mathematics). It builds on ideas in inquiry-based pedagogy and exploits some of the most engaging and motivational elements of learner-centered, immersive and hands-on learning approaches to develop 21st century skills such as critical thinking, creativity, collaboration, problem solving, communication, responsibility, self-confidence, digital literacy and entrepreneurship. In a Tinkering activity, the learner is presented with
Background. STEM identity has emerged as an important research topic and a predictor of how youth engage with STEM inside and outside of school. Although there is a growing body of literature in this area, less work has been done specific to engineering, especially in out-of-school learning contexts.
Methods. To address this need, we conducted a qualitative investigation of five adolescent youth participating in a four-month afterschool engineering program. The study focused on how participants negotiated engineering-related identities through ongoing interactions with activities, peers
While prior research has explored the reasons adults seek learning opportunities, little is known about the factors that moderate older adults' desire to participate in particular learning experiences. This study will contribute to understanding strategies that engage older adults in STEM learning in informal settings. The specific informal STEM Learning (ISL) experience to be studied here involves the innovative use of a carefully structured multigenerational team engineering design challenge that incorporates the engineering design process, recognized as integrative approach to STEM. The project will develop and pilot new tools to measure the impacts of the ISL experience on older adults. The work will ultimately generate new knowledge that supports general measurement practices through the rigorous, systematic development of measures of older adult learning.
During the 18-month pilot study, the team will: (a) develop and test methods for measuring engagement in informal STEM learning and STEM advocacy in adults 50+ years of age; and (b) explore factors that lead to the engagement of this population in ISL and that moderate the outcome of enhanced STEM advocacy. For research purposes, engagement is being defined as focus, participation, and persistence on a task. STEM advocacy is defined as a stance toward personal actions that supports or promotes a cause or policy. The study design includes use of an intergenerational team engineering design challenge involving 48 older adults as the focal ISL activity of the research. Findings from this pilot study will inform a future large-scale study of ISL environments, including specific instructional practices and resulting outcomes, for older adult learning. Defining the construct of STEM advocacy and examining its validity as a potentially measurable outcome will better position the field to design and evaluate more effective older adult learning experiences.
Project results will be disseminated widely through the literature on ISL, adult education and research tool development, as well as existing practitioner networks. The project's connection with networks of lifelong learning institutes creates additional infrastructure opportunities for ISL experiences, including the broader use of intergenerational learning methods and informal STEM design challenges. This Pilot & Feasibility study 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.
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.
The Multi-Site Public Engagement with Science—Synthetic Biology (MSPES) initiative was an Innovations in Development project funded by the National Science Foundation (DRL-1421179) through the Advancing of Informal STEM Learning program (AISL). MSPES promoted public engagement with science (PES)—a model of mutual dialogue and learning between public and scientist audiences—through the creation and distribution of PES kits to nearly 200 informal science education sites around the country. Kits included two types of learning experiences: (1) forum programs during which scientists and teen or
Summary brief describing findings from summative evaluation for the Marcellus Citizen Science Network component of the Marcellus Matters: EASE project.