Developmental perspectives on prejudice provide a fundamental and important key to the puzzle for determining how to address prejudice. Research with historically disadvantaged and advantaged groups in childhood and adolescence reveals the complexity of social cognitive and moral judgments about prejudice, discrimination, bias, and exclusion. Children are aware of status and hierarchies, and often reject the status quo. Intervention, to be effective, must happen early in development, before prejudice and stereotypes are deeply entrenched.
As new technologies continue to dominate the world, access to and participation in science, technology, engineering, mathematics (STEM), and computing has become a critical focus of education research, practice, and policy. This issue is exceptionally relevant for American Indians, who remain underrepresented as only 0.2% of the STEM workforce, even though they make up 2% of the U.S. population. In response to this need, this Faculty Early Career Development Program (CAREER) project takes a community-driven design approach, a collaborative design process in which Indigenous partners maintain sovereignty as designers, to collaboratively create three place-based storytelling experiences, stories told in historical and cultural places through location-based media. The place-based storytelling experiences will be digital installations at three culturally, politically, and historically significant sites in the local community where the public can engage with Indigenous science. The work is being done in partnership with the Northwestern Band of the Shoshone Nation (NWBSN).
The principal investigator and the NWBSN will investigate: (a) what are effective strategies and processes to conduct community-driven design with Indigenous partners?; (b) how does designing place-based storytelling experiences develop tribal members' design, technical, and computational skills?; (c) how does designing these experiences impact tribal members' scientific, technological, and cultural identities? The goals are to establish a process of community-driven design, build infrastructure to support this process, and understand how this methodological approach can result in culturally-appropriate ways to engage with science through technology. The principal investigator will work with the tribe to complete three intergenerational design cycles (a design cycle is made up of multiple design iterations). Each design cycle will result in one place-based storytelling experience. The goal is to include roughly 15 youth (ages 6-18), 10 Elders, and 10 other community members (i.e. members ages 18-50, likely parents) in each design cycle (35 tribal members total). Some designers are likely to participate in multiple design cycles. The tribe currently has 48 youth ages 6-18 and the project aims to engage at least 30 across all three design cycles. Over four years of designing three different experiences, the NWBSN aims to recruit at least 100 tribal members (just under 20% of the tribe) to make contributions (as designers, storytellers, or to provide cultural artifacts or design feedback).
This CAREER 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.
Engaging with Tinkering is a highly stimulating and complex experience and invites rich reflections from museum practitioners and teachers. "Tinkering as an inclusive approach for building STEM identity and supporting students facing disadvantage or with low science capital” presents the reflective practice process and tools designed by the "Tinkering EU: Building Science Capital for All" project aiming to understand in more depth the potential impact of using a Tinkering approach with students facing disadvantage. Using tools specifically designed to help teachers observe their students
This dissertation study investigates late-elementary and early-middle school field trips to a mathematics exhibition called Math Moves!. Developed by and currently installed at four science museums across the United States, Math Moves! is a suite of interactive technologies designed to engage visitors in open-ended explorations of ratio and proportion. Math Moves! exhibits emphasize embodied interaction and movement, through kinesthetic, multi-sensory, multi-party, and whole-body immersive experiences.
Many science museums and other informal-learning institutions offer exhibits and public
Our goal in creating this guide is to provide practitioners, organizations, researchers, and others with a “one-stop shop” for measuring nature connections. The guide is for those interested in assessing and enhancing the connections their audiences have to nature; we use the term “audience” to refer broadly to your participants or to any group you are trying to assess. The guide can help you choose an appropriate tool (for example, a survey or activity) for your needs, whether you work with young children, teenagers, or adults (see the Decision Tree on p. 14). The guide also includes 11 tools
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TEAM MEMBERS:
Gabby SalazarKristen KunkleMartha Monroe
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
The Space Science Institute’s (SSI) National Center for Interactive Learning (NCIL), in partnership with the American Society for Civil Engineers (ASCE) and the University of Virginia (UVA), was awarded a grant from the National Science Foundation (NSF) to develop and implement a 3-year program, Project BUILD (Building Using an Interactive Learning Design). Project BUILD aims to bring together public library staff from six libraries (three rural and three urban) and professional engineers from ASCE to engage youth in grades 2-5 and their families in age-appropriate, technology-rich
The Vertically Integrated Science Learning Opportunity (VISLO) program builds upon an existing three-way partnership between (i) faculty, graduate students, and undergraduate students form the University Nebraska-Lincoln (UNL), (ii) the 21st Century Community Learning Centers (CLC) in Lincoln, NE, and (iii) The University of Nebraska State Museum.
VISLO uniquely incorporates vertically-integrated peer instruction across educational levels, including: graduate, undergraduate, middle school, and elementary school. Throughout the program, participants of all identified educational levels had
Science Hunters is an outreach project which employs the computer game Minecraft to engage children with scientific learning and research through school visits, events, and extracurricular clubs. We principally target children who may experience barriers to accessing Higher Education, including low socioeconomic status, being the first in their family to attend university, and disability (including Special Educational Needs). The Minecraft platform encourages teamwork and makes science learning accessible and entertaining for children, irrespective of background. We employ a flexible approach
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TEAM MEMBERS:
Laura HobbsCarly StevensJackie HartleyCalum Hartley
This RAPID award is made by the AISL program in the Division of Research on Learning in the Directorate for Education and Human Resources, using funds from the Coronavirus Aid, Relief, and Economic Security (CARES) Act. COVID-19 presents a national threat to the health of children and families, presenting serious implications for the mental and physical health of children. This project addresses two critical aspects of the impact on COVID-19 on families: (a) the large-scale shift to at-home learning based on nationwide school closures and (b) the critical need for families to understand the basic science of virus transmission and prevention. To address these needs, the project team will develop a series of STEM activities for families with children in grades K-6 that make use of items readily available in most households. The activities help children and their families learn about viruses, virus transmission, and virus prevention while also developing other STEM-skills, particularly related to engineering design. Importantly, the project team also considers the emotional well-being of children and families during the disruption of the COVID-19 pandemic. Led by researchers from Indiana University and Binghamton University, and experts in educational resource development from Science Friday (a non-profit organization dedicated to increasing the public's access to science and scientific information through podcasts, digital videos, original web articles, and educational resources for teachers and informal educators) the project is further supported by partnerships with the New York Hall of Science, Amazeum (AR), the Gulf of Maine Research Institute (ME), The Tech Museum of Innovation (CA), the Indiana State Museum, and Kopernik Observatory Science Center (NY). The activities will be shared with families through live-streamed web sessions that introduce the activity, give tips to adults for facilitation, share a bit on related STEM careers and engage the audience in dialog about the activity and their current experiences. Versions of the sessions that are recorded will be edited and include closed-captioning and subtitles in multiple languages before being posted on platforms such as YouTube.
This project uses a design-based research approach to investigate strategies for enabling families to actively engage with STEM while home and away from their traditional institutions during a period of crisis. The research components focus on:
Engagement: How do families engage in the activity tasks, in terms of processes, practices, and use of resources? Who participated, why did they choose to participate and how did they engage (including modification of activities)? What barriers prevented interested families from completing activities?
Impact: How did the activities change participants? feelings of: a) efficacy around STEM and b) connectedness/ isolation, during extended school closures?
The Activities: Which activities had the greatest uptake? How many activity ideas were submitted by those outside of the team? What was the age/content focus of each of these activities?
The researchers will analyze social media data (including data on resource downloads and use of tracked links, YouTube and Facebook views, comment threads during livestreams and Likes/Shares/Follows across social media sites) to refine and improve the activities and programming as well as learn about the ways families are engaging in the activities. The researchers will solicit survey responses from website visitors to gather more information on participants, why they participated, how they engaged and how the activities impacted participants? efficacy around STEM and their feelings of connectedness or isolation. The researchers will also ask participants to submit images, videos and text that describes what they are making and their process along the way. Analysis of this data would lead to insights on how children and families use STEM language and practices; how children and families ask questions and use COVID-19-related and other information as part of their design work; and how ideas are formed, shaped and refined as families engage in design and making. While the project focuses on a unique opportunity to collect data on family STEM engagement as families respond to disruptions from the COVID-19 pandemic, this project and its findings will provide a knowledge base that can be utilized to inform future responses to national emergencies, other work aimed at promoting family learning at home, and approaches to supporting children in open-ended problem solving.
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 making and tinkering movement has become increasingly mainstream over the past decade, pioneered in part through the popularity of magazines like `Make', events such as Maker Faire and DIY websites including `Instructables'. Science centres and museums have been developing their own ideas, notably the Tinkering Studio at the Exploratorium. In this commentary piece, we reflect on why this movement has a strong appeal for the Life Science Centre in Newcastle upon Tyne and why we are in the process of developing a new making and tinkering space to help us enact our centre's vision to `Enrich
The Farrell Fellows Summer Internship program consists of teen educators leading science, technology, engineering and math (STEM) activities for children at libraries and park locations across Chicago. The goal of this study was to learn more about the families who attend the sessions and to also look for evidence of learning and how that may be related to the moods and attitudes of the teen educators. Data was collected through observations of the sessions, pre- and post-session surveys of 26 teen educators, and 90 surveys of the parents of participating children. Field notes were coded using