Imagination Station, Toledo’s Science Center, will implement Toledo Tinkers: Through a Child’s Eyes — a new initiative to address barriers to STEM education and promote a lifelong love of those subjects. An outreach curriculum and a mobile tinkering lab will help children ages 11–13 and their families establish personal connections with making and tinkering. Pilot programs will include the Maker Club — a 12-session out-of-school program for students from Boys and Girls Clubs of Toledo and other community-based organizations — as well as Tinkering Takeovers, which is a drop-in tinkering program for families at branch libraries. A community exhibition will showcase the diversity of the Toledo community and its rich history of making and tinkering, using the work of participating children.
The Wyoming State Museum will implement an exhibit plan developed with content experts from across the state to produce a Prehistoric Wyoming exhibit. The exhibit will explore the prehistory of Wyoming, with a special focus on the age of dinosaurs, and will serve the needs of the museum’s three main visitor groups—local families, out-of-state tourists, and students on field trips—as determined through formative surveys and visitor feedback. Visitors will learn about the geological forces that shaped the Wyoming landscape visible today, examine the different plants and animals that have called Wyoming home through the ages, and discover the history of fossil hunters in Wyoming.
This Innovations in Development project is funded by the Advancing Informal STEM Learning 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. Specifically, this project connects Native Hawaiian youth ages 12-17 and their family members to STEM by channeling their cultural relationship with ʻāina, the sustaining elements of the natural world including the land, sea, and air. This project seeks to: broaden participation of Native Hawaiian youth who have been historically underrepresented in STEM; actively uphold Native Hawaiian ways of knowing and traditional knowledge; articulate the science rooted in cultural wisdom; and bring STEM into the lives of participants as they connect to the ʻāina. In partnership with six ʻāina-based community organizations across Hawaiʻi, this project will develop, implement, and study ʻāina-centered environmental education activities that explore solutions to local environmental problems. For example, in one module youth and their families will explore of a section of a nearby stream; identify and discuss the native, non-native, and invasive species; remove invasive species from a small section of the stream and make observations leading to discussions of unintended consequences and systemic impacts; ultimately, learners will meet at additional local waterways to engage in similar explorations and discussions, transferring their knowledge to understanding the impacts of construction on local streams and coral reefs. To this effort, the community-based organizations bring their expertise in preserving Hawaiian culture and sustainable island lifestyle, including rural and urban systems such as farming and irrigation traditions and the restoration of cultural sites. University of Hawai’i faculty and staff bring expertise in Environmental Science, Biology, Hawaiian Studies and Problem-Based Learning Curriculum Development. This project further supports organizational learning and sharing among the six community-based organizations. Grounded in Hawaiian ʻAʻo, where learning and teaching are the same interaction, community-based organizations will create a Community of Practice that will co-learn Problem-Based Learning pedagogy; co-learn and engage in research and evaluation methods; and share experiential and traditional knowledge to co-develop the ʻāina-based environmental education activities.
This project is uniquely situated to study the impact of community-led culturally relevant pedagogy on Hawaiian learners’ interests and connections to environmental science, and to understand ʻāina-based learning through empirical research. Research methods draw on Community-Based Participatory Research and Indigenous Research Methods to develop a collaborative research design process incorporated into the project’s key components. Community members, researchers, and evaluators will work together to examine the following research questions: 1) How does environmental Problem-Based Learning situate within ʻāina-based informal contexts?; 2) What are the environmental education learning impacts of ʻāina-based activities on youth and family participants?; and 3) How does the ʻāina-centered Problem-Based Learning approach to informal STEM education support STEM knowledge, interest and awareness? The evaluation will employ a mixed-methods participatory design to explore program efficacy, fidelity, and implementation more broadly across community-based sites, as well as program sustainability within each community-based site. Anticipated project outcomes are a 15-week organizational learning and sharing program with six ʻāina-based community organizations and 72 staff; the design and implementation of 18 activities to reach 360 youth and at least one of their family members; and the launch of an ʻāina-based STEM Community of Practice. The project’s research and development process for ʻāina-centered environmental education activities will be shared broadly and provide a useful example for other organizations locally and nationally working in informal settings with Native or Indigenous populations.
Although approximately one-quarter of U.S. students reside in rural communities, rural youth are fifty percent less likely to receive and engage in out-of-school STEM experiences than their urban counterparts. In addition, there has been significantly more investment in understanding and improving informal experiences in urban settings than in rural settings. As a result, there is less known about the characteristics of learning ecosystems and programs that support STEM learning for youth in informal contexts within rural communities. This Research in Service to Practice project aims to address this challenge by exploring the feasibility of a culturally relevant and sustaining STEM program designed specifically for rural youth and their families. Parents and caregivers play a critical role in fostering youths’ interests and persistence in STEM through their own engagement and by connecting them to STEM opportunities and STEM-related fields and career pathways. Through a partnership between the High Desert Museum in Oregon, the Institute for Learning Innovation, Maine Mathematics and Science Alliance, JKS Consulting, and three informal science education institutions, a year-long series of STEM-based workshops and experiences for youth and their families will be co-designed by members of the rural community, informal STEM educators, and STEM professionals and implemented within the rural communities of the participating informal science education institutions—Caddo Mounds State Historic Site Weeping Mary (TX), High Desert Museum (OR), Oregon Coast Aquarium, and The Wild Center (NY). Each series will reflect the cultural knowledge, connections, and resources specific to each rural community. In addition, the informal STEM educators and STEM professionals will receive training on facilitating the culturally sustaining workshops and experiences. Researchers at the Institution for Learning Innovation and the Maine Mathematics and Science Alliance together with the evaluator at JKS Consulting will employ a collaborative design-based research approach to identify and study the STEM learning practices and supports that occur within the program to promote youths’ interests and persistence in STEM. The findings will offer evidence-based insights to the field on how to better engage, reflect, and provide opportunities for diverse rural communities. Ultimately, this research has the potential to advance the current understanding thereby, strengthening rural STEM learning ecosystems and broadening STEM participation among youth in rural communities.
Over a four-year project duration, a collaborative design-based research approach will be employed to address the following research questions: (1) How does culturally sustaining informal STEM programming for families in rural communities contribute to increases in youth STEM persistence? (1a) How might this vary in relation to family and community factors? (2) How does culturally sustaining informal family STEM programming increase community connectivity between STEM-related resources and institutions across informal and formal learning contexts in rural communities leading to a more robust and inclusive STEM learning ecosystem? (2a) To what extent do participating families, informal STEM educators, STEM professionals, and community partners each play a role in increasing this connectivity? The research sample will include 300 families with youth ages 8-11, informal science educators, and STEM professionals across all four sites. Surveys, interviews and observations will be the primary data sources. Analysis of Variance and simple descriptive statistical analysis will be used to analyze the quantitative data. The qualitative data will be analyzed using thematic coding through NVivo. In addition, to complement the research data, JKS Consulting will conduct the formative and summative evaluations of the project to hone effective practices for training informal science learning practitioners in developing and implementing place-based, inquiry-based family learning in rural communities and effective and sustainable practices for engaging rural families in place-based STEM. Findings from the research will be made available and widely distributed in publications, conference presentations, and a multi-part Research to Practice Toolkit designed for parents and caregivers, informal science educators, STEM professionals, and the informal education field at large.
This Research in Service to Practice project is funded by the Advancing Informal STEM Learning (AISL) program.
For many youth, gaining access to quality STEM (science, technology, engineering mathematics) experiences is a challenge. Inequity and underrepresentation of youth of color in STEM persist. The makerspace movement holds great promise in broadening participation in STEM among youth from underrepresented communities. Makerspaces are defined as collaborative workspaces inside a library, school, or other community location designed for creating, learning, exploring, and sharing with high- to low-tech tools. Despite the availability of making programs focused on STEM activities targeted towards youth of color, the field has few models for designing these programs in ways that build upon youths’ cultural assets and desires for making. Working collaboratively with youth, families, and maker educators in Lansing, Michigan, and Greensboro, North Carolina, this project aims to deepen the field’s understanding about the rich and deep ingenuity in STEM-based making that youth from underrepresented communities can engage. These insights will be leveraged towards advancing community-based maker programming across four community-based makerspaces. The project will also build capacity among STEM-oriented maker educators, researchers, and youth. This model is important because the voices and perspectives of families and communities have been largely absent from the formative knowledge and theory-building processes of the field of makerspace education.
This project will build new knowledge about how and why youth and families make at home, in communities, and in STEM-based maker programs. Collaborators for the project include the University of Michigan, the University of North Carolina at Greensboro, and four STEM- and youth-oriented making spaces in Lansing, Michigan, and Greensboro, North Carolina. This project will take place in two phases, exploring two main research questions: 1) What are the learning results of making at home and in the community? And 2) How do youth organize community resources for sustained STEM making, and what facilitates or hinders such organization? Phase one investigates the community resources (people, tools, materials, knowledge, data, and spaces) youth leverage towards making and how they do so across time. The project will study how youth connect these resources to STEM-rich making and what youth and families learn in the process. In phase two, design-based research will be used to apply phase one insights to the design of community-based STEM-rich maker programs in four maker clubs in Michigan and North Carolina. This work will develop an understanding of youths’ family and community-based STEM-based making practices, including the community resources (people, tools, materials, knowledge, data, and spaces) that youth leverage.
This Research in Service to Practice project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to (a) advance new approaches to and evidence-based understanding of the design and development of STEM learning in informal environments; (b) provide multiple pathways for broadening access to and engagement in STEM learning experiences; (c) advance innovative research on and assessment of STEM learning in informal environments; and (d) engage the public of all ages in learning STEM in informal environments.
Museums and similar informal learning settings offer opportunities for children and families to learn together in an engaging way. Current exhibits rely mainly on parents, teachers, signage, and staff in science museums to provide support and guidance. Since it is not always feasible to have knowledgeable staff on hand and not all parents have the same knowledge and background, children receive varied support and people often miss the point of the learning experience or activity. This project will develop and research a new genre of Smart Science Exhibits that use artificial intelligence (AI) in an adaptive system to support children in learning science by doing science. The aim of the project is to incorporate AI adaptivity and personalization to maximize inquiry-based STEM learning and engagement in informal learning settings. This research builds on the project team's first Smart Science Exhibit (EarthShake), which uses AI vision to give interactive feedback to visitors based on their actions and guides them through scientific inquiry. In the project's preliminary work, the first smart exhibit demonstrated higher engagement and more learning gains than resulted from a traditional museum exhibit addressing the same scientific content. Smart exhibits can extend and enhance the limited support that staff and parents can provide. This project will develop and investigate adaptive approaches to mixing exploration and AI guidance, which will personalize feedback during constructive exploration. The project will build on learning science techniques and technology, proven in intelligent tutoring systems in formal settings, and apply this to different informal learning contexts. The goal is to provide just-in-time learning support, which will extend the time visitors spend with exhibits, thereby deepening inquiry-based science learning. The project is partnering with science museums and afterschool programs, which will enable thousands of children and families from a wide variety of backgrounds to use the project's smart exhibits each year. Smart Science Exhibits is funded by the Advancing Informal STEM Learning (AISL) program which supports innovative research, approaches, and resources as part of its overall strategy to enhance learning in informal environments.
Many informal learning settings are considering mixed-reality (MR) technologies to increase engagement and understanding of science. Using Smart Science Exhibits, the project will investigate how design choices in mixed-reality systems impact users' engagement and learning of STEM concepts. (Mixed reality is the blending of the physical world and the digital world, enabling interaction between human and artificial intelligence.) Project research will extend current research, which is largely descriptive, by investigating empirical results on learner outcomes. Key research questions are: What types of adaptivity and personalization can improve Smart Science Exhibits and MR systems generally? What balance of exploration and AI guidance is best to maximize enjoyment, engagement and learning? Do findings about the effective features of Smart Science Exhibits generalize to different content areas and informal learning settings? The project will employ user-centered design research, formative evaluation, and controlled experimentation to discover how mixed-reality systems should be designed to best meet visitor and staff needs in informal learning settings including multiple museums and afterschool providers. Data on learner behaviors in mixed-reality experiences in a variety of informal settings will inform the design of Smart Science Exhibits. The project will investigate whether adaptive approaches generalize across content and context to achieve better STEM learning, engagement, collaboration, and productive dialogue. The project will incorporate the team's prior technical research, which developed both vision techniques to track children's physical interactions and interactive pedagogical techniques to provide scaffolds for and reactive feedback on children's inquiry and construction behaviors. New technical research will develop AI techniques for adaptive task selection and personalized feedback that draws on a visitor's history of interaction. Project research and design resources will be widely shared with the science museum educators and designers through presentations at annual conferences and with researchers, developers and others through peer-reviewed journal publications and professional publications.
This Innovations in Development 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:
Nesra YannierScott HudsonKen Koedinger
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
Many of the Hispanic children and families who live in the Rio Grande Valley lack opportunities to engage in inspirational and educational experiences introducing Science, Technology, Engineering and Mathematics (STEM) concepts and related careers. The University of Texas, Rio Grande Valley (UTRGV) will adapt and research the "Energy and U Show," which will introduce thousands of children and families to an exciting and dramatic that shows interconverting different forms of energy. The show will meld the excitement of chemical demonstrations and the natural connection between energy and STEM education in a fully produced, on-stage science extravaganza. A foundational philosophy of the show is that there is additional real value in getting children and youth onto a college campus. For many of its participants, this is their first time sitting in a seat at a university, the first opportunity for them to envision themselves in this environment. In partnership with the University of Minnesota, which originally developed the show, UTRGV will adapt the show, now presented in English, to a bilingual, culturally accessible format that is designed to Hispanic family audiences and student groups in learning about energy and related careers. Evaluation results demonstrate that the show has effectively engaged thousands of Minnesota students. The target audience will be upper elementary (4th-5th grade), middle school students, and their parents. This project will be led by UTRGV, nation's second-largest Hispanic Serving Institution, with a student enrollment of 28,000, of which over 90% are Hispanic and more than 60% are first-generation college students). In addition to the show, the project will include: (1) a manual to guide implementation of the program and related resources at different national or international venues; (2) educational resources for parents, teachers and school counselors introducing STEM careers and specific STEM college majors; (3) mentoring of UTRGV faculty in outreach activities; and (4) dissemination of the show to other campuses and venues.
The project will conduct ongoing research and evaluation guiding the adaptation of the show and investigation of factors contributing to positive educational impacts of the project, which will be carried out by a bilingual/bicultural researcher. Project research instruments will measure student level of engagement, interest and learning, as well as college interest, in surveys and analysis of data pre and post demonstration. The project will specifically investigate the impact of language on student impacts. Each component of this project will be studied to determine program intervention effectiveness (the scientific demonstration and language of the demonstration). To determine program effectiveness, a baseline of data before program implementation will be established concerning Hispanic students, their persistence, and perceptions of the environment. The project will measure parent perceptions of STEM careers for their children through pre and post demonstration surveys and focus groups. Student and parent research participants will be able to use surveys or respond to other research activities in the language of their choice. Project findings will contribute to the knowledge base concerning how linguistically and culturally adapted science shows and related resources adapted into can have positive impacts regarding the STEM knowledge and careers of students and parents from low-income and Hispanic communities.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
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TEAM MEMBERS:
Karen LozanoArturo FuentesAaron MassariBrian Warren
This project will focus on addressing the challenges faced by rural youth with a particular emphasis on those youth who are English Language Learners. The project will provide informal education via libraries and librarians which can provide unique opportunities for rural youth and communities. Building on several years of research and experimentation, this project will augment the formal education sector, as well. The settings for the project are 12 rural school districts in largely Latinx communities. The project partners are the Space Science Institute, the American Library Association (ALA), the Institute for Learning Innovation and the Twin Cities Public Television. Expertise from the Latinx community will play a significant part in the project. The project will engage learners from diverse backgrounds, ages, and interests in science through a coordinated and tested strategy incorporating three Learning Pathways (i.e., Science Learning Spaces, Programs, and Science Kits) in a public library environment. The results should yield a model for Nationwide application.
The main goals are: 1) to establish learning pathways to engage rural communities through exhibit host libraries and (2) to increase art-rich STEM learning opportunities for rural communities through libraries and their support systems. Building on an established training model, the project will introduce library staff to the STEAM content of the exhibits and guide them in developing their own STEAM Learning Pathways. SciGirls digital media, hands-on activities, family resources, and a training network will expand the depth and reach of the project. The project draws on existing professional infrastructure to increase library staff capacity through ALA and the Institute's established community of practice. The researchers will study the efficacy of each pathway, alone and in tandem, on participant's interest development and persistence. The research will use a mixed-methods design-based approach that involves questionnaires, interviews and case studies.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
Libraries can provide unique opportunities for rural youth and communities. Phase III of the STAR Library Network will be a collaboration with 12 rural school districts in largely Latinx communities to address the challenges faced by rural youth, particularly English Language Learners. The project will use a coordinated and tested strategy to establish three learning pathways in public libraries: science learning spaces with exhibits, library programs, and science kits. These resources will provide learners with art-rich STEM learning opportunities.
Partners
Project partners include the Space Science Institute, the American Library Association (ALA), the Institute for Learning Innovation, and Twin Cities Public Television. The project will rely significantly on expertise from the Latinx community.
Project Plan
Building on an established librarian training model, the project will introduce library staff to the STEAM content and guide them in developing their own STEAM Learning Pathways. The project will draw on existing professional infrastructure from the ALA and the Institute for Learning Innovation’s established community of practice. SciGirls digital media, hands-on activities, family resources, and a training network will expand the depth and reach of the project.
The Research
The research team will study the efficacy of each pathway, alone and in tandem, on participant’s interest development and persistence. The research will use a mixed-methods design-based approach that involves questionnaires, interviews, and case studies. The results should yield a model for nationwide application and contribute insights for the formal education sector.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
This four-year research study will investigate families' joint media engagement (JME) and informal STEM learning while listening to the child-focused STEM podcast, Brains On! Prior research has shown that the setting where families most often listen to this podcast together is the family automobile as children are being driven to school, on road trips, or other activities. Brains On! is rooted in the mission-driven principle of public radio to educate and inspire. The target audience is children 5-12 years old and their parents or caregivers. Each episode ranges from 20-45 minutes in length and presents ideas from a variety of STEM disciplines such as physics, chemistry, biology and engineering featuring sound-rich explanations of concepts through fun skits, original songs and interviews with scientists. The episodes use a light-hearted, humorous approach to share oftentimes complex STEM information. To provide an interactive experience, hosts encourage the audience to participate with the show by sending in drawings, emailing photos of plants and animals, or posing questions to be answered in future episodes. Every episode is co-hosted by a different child who interviews top scientists about their work. The scientists are selected to be representative of the range of topics presented and are meant to serve as role models for the listeners and demonstrating a wide range of career options in the STEM field.
The research adds to the social learning theory of joint media engagement (JME) which has shown that interactions between people sharing a media experience can result in learning together. Recent work on Joint Media Engagement has focused on parent/child interactions with television/video in the home. But little is known about how families engage with children's STEM podcasts together and what learning interactions occur as a result. Even less is known about this engagement within an automobile setting. This research project will build new knowledge filling a gap in the informal STEM learning field. It will use a mixed-methods research design with three phases of research to answer these questions: 1) How does the Brains On! podcast mediate STEM-based joint media engagement and family learning in an automobile setting? 2) What does STEM based joint media engagement and family learning look and sound like in this setting? 3) How do "in-automobile" factors foster or impede STEM-based joint media engagement and family learning? Phase 1 is a listener experience video study of 30 families listening to the Brains On! episodes. Phase 2 is video-based case studies of the natural automobile-based listening behaviors of eight Phase 1 families. Phase 3 is an online survey of Brains On! listeners to understand how representative the findings from Phases 1 and 2 are to the larger Brains On! Research. Results will be shared widely with key audiences that can use the findings (media developers, ISE practitioners, ISE evaluators and researchers, and families). It will also make an important contribution to the Joint Media Engagement literature and the ISE field.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
This Innovations in Development 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 Designing Our Tomorrow project will develop a framework for creating exhibit-based engineering design challenges and expand an existing model of facilitation for use in engineering exhibits. The project seeks to broaden participation in engineering and build capacity within the informal science education (ISE) field while raising public awareness of the importance of sustainable engineering design practices. The project focuses on girls aged 9-14 and their families and is co-developed with culturally responsive strategies to ensure the inclusion and influence of families from Latino communities. The project will conduct research resulting in theory-based measures of engineering proficiencies within an exhibit context and an exhibit facilitation model for the topic area of engineering. Based on the research, the project will develop an engineering design challenge framework for developing design challenges within an exhibit context. As the context for research, the project will develop a bilingual English/Spanish 2,000-square foot traveling exhibition designed to engage youth and families in engineering design challenges that advance their engineering proficiencies from beginner to more informed, supported by professional development modules and a host-site training workshop introducing strategies for facilitating family engineering experiences within a traveling exhibition. The project is a collaboration of Oregon Museum of Science and Industry with the Biomimicry Institute, Adelante Mujeres, and the Fleet Science Center.
Designing Our Tomorrow builds on a theory-based engineering teaching framework and several previous NSF-funded informal education projects to engage families in compelling design challenges presented through the lens of sustainable design exemplified by biomimicry. Through culturally-responsive co-development and research strategies to include members of Latino communities and provide challenges that highlight the altruistic, creative, personally relevant, and collaborative aspects of engineering, the Designing Our Tomorrow exhibition showcases engineering as an appealing career option for women and helps families support each other's engineering proficiencies. To better understand and promote engineering learning in an ISE setting, the project will conduct two research studies to inform and iteratively develop effective strategies. In the first study, measurement development will build on prior research and practice to design credible and reliable measures of engineering proficiency, awareness, and collaboration, as well as protocols for use in exhibit development and the study of facilitation at engineering exhibits, and future research. The second study will explore the effects of facilitation on the experience outcomes.
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.