Museums in the US receive approximately 55 million visits each year from students in school groups. Field trip visits to an art museum have been found to positively impact critical thinking skills, empathy and tolerance - an increase that can be even more significant for youth from rural or high-poverty regions. While field trips are popular, especially at science museums, there have been no experimental studies about their impact on STEM career choices and interests, much less any which used a culturally sensitive and responsive approach. Given the resources put into field trips, this study investigates if causal links can be drawn between museum experiences and impact on youth. The Museum of Science & Industry uses a Learning Labs approach for engaging its visitors. These "Learning Labs" are facilitated experiences that run roughly an hour. Currently there are 12 lab topics. This study focuses on MedLab--one of the learning labs--as the setting for the research. MedLab is designed for on-site and online experience using ultra-sophisticated and highly versatile technology in challenges taken from research on the top healthcare issues that face adolescents in their communities.
This study is informed by research and theory on Social Cognitive Career Theory (SCCT) and Racial and Ethnic Identity. The former describes a process many follow when thinking about career options, broadly. The latter describes how people see themselves in the world through their membership with a racial and/or ethnic group. Both processes can collectively influence STEM career choices. This study follows an embedded mixed-method design. The quantitative portion includes an experimental, pre/post/delayed post-test design of both educators and their students using multiple measures taken mostly from previously published instruments. The qualitative portion includes observation rubrics of MedLab sessions along with interviews and focus groups with staff, educators, students and families that take place both within and outside of the museum. This is an experimental study of moderate size of both heterogeneous teacher and student populations in real world settings. It involves comparing youth and educators that participate in MedLab with those who do not. By conducting research that looks at each community through the lens of their unique experiences, the research will measure their impact more sensitively and authentically, addressing a gap in current literature on informal science, technology, engineering, or mathematics (STEM) career education with diverse students.
This study is funded by the Advancing Informal STEM Learning (AISL) program and the Innovative Technology Experiences for Students and Teachers (ITEST) program.
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 collaborative project will facilitate rural community education on climate impacts. The Carnegie Natural History Museum and the University of Pittsburgh will work together to form a network of interested community members in Mercer County and Powdermill Nature Reserve in western Pennsylvania to explore the impacts of climate and how its effect could be mitigated or accommodated. The project is has three related ideas: (1) museums hold valuable resources for understanding environmental change, (2) museums are not serving rural audiences well, and (3) complex socio-scientific environmental topics are deeply connected to social decision making in rural communities. This project will bring an inclusive approach to the discussion of socio-scientific issues in rural Western PA, through building relationships between local public audiences, STEM professionals, and informal learning specialists, creating opportunities for co-development of resources and building organizational capacity. The overarching goals of the project are to explore how museums can better serve rural stakeholders and increase the capacity for science-based conversations about human-caused climate impacts.
This project involves a cross-disciplinary team with Carnegie Museum of Natural History providing expertise in interpretation and ecological science, the University of Pittsburgh Center for Learning in Out of School Environments (UPCLOSE) providing expertise in learning research, and rural Hubs centered at Powdermill Nature Reserve (PNR) and the Mercer County Conservation District providing expertise in environmental education, conservation, and engagement with rural communities. The Hubs will coordinate professional development workshops, collaborative design sessions, and community gatherings to bring local stakeholders together to examine and adapt existing resources, including environmental science data and climate education tools, to local issues. These activities will be structured through a Research Practice Partnership. Each will have its own unique mix of geography, demographics, resources, and challenges.
The Research questions are: 1. How can the project effectively support the creation of socially safe spaces for rural Western PA communities to have science-based discussions around climate impacts? 2. How does work with rural partners influence the development of the museum's Center for Climate Studies and its mission to offer programs designed to support public engagement?
3. In what ways have museums been able to support learning about climate topics in rural communities? Data will be gathered from interviews and case studies. There will be two longitudinal studies of local network change and museum change. A survey will also be done to assess the impact of the project on the public. Protocols will be developed in collaboration with the Hubs.
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:
Lauren GiarrataniNicole HellerKevin Crowley
This poster was presented at the 2019 AISL PI Meeting, and describes the the ongoing research questions and goals of the Ute STEM Project, which explores the integration of the traditional ecological knowledge (TEK) of the Ute Indians of Colorado and Utah and Western science, technology, engineering and math (STEM).
Lineage is a comprehensive educational media and outreach initiative that will engage individuals and families in learning about deep time and evolution, helping audiences come to newfound understandings of the connections between the past, present, and future of life on Earth. The project is a partnership between Twin Cities PBS (TPT) and the Smithsonian Institution's National Museum of Natural History and is linked to the opening of that museum's new Deep Time Fossil Hall in June 2019. The project includes a two-hour film for national broadcast on PBS, and a 20-minute short version for exhibition in science centers. The documentaries will show how scientists, using paleontology, genetics, earth science and other disciplines, can reconstruct in detail the origins of living animals like birds and elephants, revealing their ancient past as well as evidence of ecological change that can inform our understanding of Earth today. Extensive educational outreach will include the creation of "Bone Hunter," an innovative VR (Virtual Reality) game designed for family co-play that engages multiple players in the process of paleontology as they piece together a fossil in a digital lab. Bone Hunter and other collaborative educational activities will be deployed at Family Fossil Festivals that will attract multi-generational learners. One such Festival will take place at the Smithsonian Institution in Washington, D.C., while others will be based at geographically diverse institutions that serve underserved rural as well as urban communities. Lineage is a collaboration between national media producers, noted learning institutions and researchers, including Twin Cities Public Television, the Smithsonian Institution / National Museum of Natural History, Schell Games, the Institute for Learning Innovation (ILI), and Rockman et al. One of the project's primary innovations is its exploration of new learning designs for families that use cutting-edge technologies (e.g. the Bone Hunter virtual reality game) and collaborative multi-generational learning experiences that advance science knowledge and inquiry-based learning. An external research study conducted by ILI will investigate how intergenerational co-play with physical artifacts compared to virtual artifacts influences STEM (Science Technology Engineering Mathematics) learning and engagement. The findings will lead to critical strategic impacts for the field, building knowledge about ongoing innovation in the free choice learning space. The project's external evaluation will be conducted by Rockman et al and evaluative findings, as well as the educational materials derived from the project, will be widely disseminated through partnerships with professional and educator groups. Clips from the Lineage film and related learning resources will be hosted on PBS LearningMedia, so educators can incorporate these resources into their classrooms, and students and lifelong learners can explore and discover on their own. The project outcomes will have broad impact on public audiences, deepening and advancing knowledge and understanding about important scientific concepts, and promoting continued, family-based collaborative learning experiences to expand and deepen STEM knowledge. 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.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches, and resources for use in a variety of settings. This project will develop a national infrastructure of state and regional partnerships to scale up The Franklin Institute's proven model of Leap into Science, an outreach program that builds the capacity of children (ages 3-10) and families from underserved communities to participate in science where they live. Leap into Science combines children's science-themed books with hands-on science activities to promote life-long interest and knowledge of science, and does so through partnerships with informal educators at libraries, museums, and other out-of-school time providers. Already field-tested and implemented in 12 cities, Leap into Science will be expanded to 90 new rural and urban communities in 15 states, and it is estimated that this expansion will reach more than 500,000 children and adults as well as 2,700 informal educators over four years. The inclusion of marginalized rural communities will provide new opportunities to evaluate and adapt the program to the unique assets and needs of rural families and communities.
The project will include evaluation and learning research activities. Evaluation will focus on: 1) the formative issues that may arise and modifications that may enhance implementation; and 2) the overall effectiveness and impact of the Leap into Science program as it is scaled across more sites and partners. Learning research will be used to investigate questions organized around how family science interest emerges and develops among 36 participating families across six sites (3 rural, 3 urban). Qualitative methods, including data synthesis and cross-case analysis using constant comparison, will be used to develop multiple case studies that provide insights into the processes and outcomes of interest development as families engage with Leap into Science and a conceptual framework that guides future research. This project involves a partnership between The Franklin Institute (Philadelphia, PA), the National Girls Collaborative Project (Seattle, WA), Education Development Center (Waltham, MA), and the Institute for Learning Innovation (Corvallis, OR).
Abstract: We aim to disrupt the multigenerational cycle of poverty in our rural indigenous (18% Native American and 82% Hispanic) community by training our successful college students to serve as role models in our schools. Poverty has led to low educational aspirations and expectations that plague our entire community. As such, its disruption requires a collective effort from our entire community. Our Collective unites two local public colleges, 3 school systems, 2 libraries, 1 museum, 1 national laboratory and four local organizations devoted to youth development. Together we will focus on raising aspirations and expectations in STEM (Science, Technology, Engineering and Mathematics) topics, for STEM deficiencies among 9th graders place them at risk of dropping out while STEM deficiencies among 11th and 12th graders preclude them from pursuing STEM majors in college and therefore from pursuing well paid STEM careers. We will accomplish this by training, placing, supporting, and assessing the impact of, an indigenous STEM mentor corps of successful undergraduate role models. By changing STEM aspirations and expectations while heightening their own sense of self-efficacy, we expect this corps to replenish itself and so permanently increase the flow of the state's indigenous populations into STEM majors and careers in line with NSF's mission to promote the progress of science while advancing the national health, prosperity and welfare.
Our broader goal is to focus the talents and energies of a diverse collective of community stakeholders on the empowerment of its local college population to address and solve a STEM disparity that bears directly on the community's well-being in a fashion that is generalizable to other marginalized communities. The scope of our project is defined by six tightly coupled new programs: three bringing indigenous STEM mentors to students, one training mentors, one training mentees to value and grow their network of mentors, and one training teachers to partner with us in STEM. The intellectual merit of our project lies not only in its assertion that authentic STEM mentors will exert an outsize influence in their communities while increasing their own sense of self-efficacy, but in the creation and careful application of instruments that assess the factors that determine teens' attitudes, career interests, and behaviors toward a STEM future; and mentors' sense of self development and progress through STEM programs. More precisely, evaluation of the programs has the potential to clarify two important questions about the role of college-age mentors in schools: (1) To what degree is the protege's academic performance and perceived scholastic competence mediated by the mentor's impact on (a) the quality of the protege's parental relationship and (b) the social capital of the allied classroom teacher; (2) To what degree does the quality of the student mentor's relationships with faculty and peers mediate the impact of her serving as mentor on her self-efficacy, academic performance, and leadership skills?
Chemistry is an important and widely relevant field of science. However, when compared with other STEM content areas, chemistry is under-represented in U.S. science museums and other informal educational environments. This project will build, and build knowledge about, innovative approaches to delivering informal science learning activities in chemistry. The project will not only increase public interest and understanding of chemistry but also increase public perception of chemistry's relevance and increase the public's self-efficacy with respect to chemistry. This project outcomes will include a guide for practitioners along with activity materials that will be packaged into a kit, distributed, and replicated for use by informal science educators, chemists, and chemistry students at 250 sites across the U.S. The project team will reach out to organizations that serve diverse audiences and diverse geographic locations, including organizations in rural and inner-city areas. The kits will provide guidance on engaging girls, people with various abilities, Spanish speakers, and other diverse audiences, and include materials in Spanish. Written guides, training videos, and training slides will be included to support training in science communication in general, as well as chemistry in particular. This project is supported by the Advancing Informal STEM Learning (AISL) program funds research and innovative resources for use in a variety of settings, as a part of its overall strategy to enhance learning in informal environments.
This project will take an innovative approach to develop informal educational activities and materials about chemistry. Rather than starting with content goals, the project will start with a theoretical framework drawn from research about affecting attitudes about science related to interest, relevance, and self-efficacy. A design-based research approach (DBR) will be used to apply that framework to the development of hands-on educational activities about chemistry, while also testing and modifying the framework itself. (DBR blends empirical educational research with the theory-driven design of learning environments.) Existing or new educational activities that appear to embody key characteristics defined in the framework will be tested with public audiences for their impact on visitors. Researchers and educators will determine how different characteristics of the educational activities defined in the framework affect the outcomes. The activities will be modified and tested iteratively until the investigators achieve close alignment between framework and impacts.. The project team will continue the design-based research approach both to examine groups of activities in which synergies can have impacts beyond single interactions as well as to examine varied ways of training facilitators who can also significantly affect outcomes. In this way, the project will generate knowledge about how kits of hands-on informal learning activities can stimulate attitudes of interest, relevance, and self-efficacy with respect to the neglected field of chemistry. The project teams will broadly disseminate project outcomes within the educational research, science and informal Science, Technology, Engineering and Mathematics (STEM) education communities. While this project will focus on chemistry, the strategies it will develop and test through a design-based research process will provide valuable insight into effective approaches for informal STEM education more broadly.
This project had three objectives to build knowledge with respect to advancing Informal STEM Education:
Plan, prototype, fabricate, and document a game-linked design-and-play STEM exhibit for multi-generational adult-child interaction utilizing an iterative exhibit design approach based on research and best practices in the field;
Develop and disseminate resources and models for collaborative play-based exhibits to the informal STEM learning community of practice of small and mid-size museums including an interactive, tangible tabletop design-and-play game and a related tablet-based game app for skateboarding science and technology design practice;
Conduct research on linkages between adult-child interactions and game-connected play with models in informal STEM learning environments.
Linked to these objectives were three project goals:
Develop tools to enable children ages 5-8 to collaboratively refine and test their own theories about motion by exploring fundamental science concepts in linked game and physical-object design challenge which integrates science (Newton’s Laws of Motion) with engineering (iterative design and testing), technology (computational models), and mathematics (predictions and comparisons of speed, distance, and height). [Linked to Objectives 1 & 3]
Advance the informal STEM education field’s understanding of design frameworks that integrate game environments and physical exhibit elements using tangibles and playful computational modeling and build upon the “Dimensions of Success” established STEM evaluation models. [Linked to Objectives 1 & 2]
Examine methods to strengthen collaborative learning within diverse families through opportunities to engage in STEM problem-based inquiry and examine how advance training for parents influences the extent of STEM content in conversations and the quality of interactions between caregivers and children in the museum setting. [Linked to Objectives 1 & 3]
The exhibit designed and created as a result of this grant project integrates skateboarding and STEM in an engaging context for youth ages 5 to 8 to learn about Newton’s Laws of Motion and connect traditionally underserved youth from rural and minority areas through comprehensive outreach. The exhibit design process drew upon research in the learning sciences and game design, science inquiry and exhibit design, and child development scholarship on engagement and interaction in adult-child dyads.
Overall, the project "Understanding Physics through Collaborative Design and Play: Integrating Skateboarding with STEM in a Digital and Physical Game-Based Children’s Museum Exhibit" accomplished three primary goals. First, we planned, prototyped, fabricated, and evaluated a game-linked design-and-play STEM gallery presented as a skatepark with related exhibits for adult-child interaction in a Children's Museum.
Second, we engaged in a range of community outreach and engagement activities for children traditionally underserved in Museums. We developed and disseminated resources for children to learn about the physics of the skatepark exhibit without visiting the Museum physically. For example, balance board activities were made portable, the skatepark video game was produced in app and web access formats, and ramps were created from block sets brought to off-site locations.
Third, we conducted a range of research to better understand adult-child interactions in the skatepark exhibit in the Children's Museum and to explore learning of physics concepts during physical and digital play. Our research findings collectively provide a new model for Children's Museum exhibit developers and the informal STEM education community to intentionally design, evaluate, and revise exhibit set-up, materials, and outcomes using a tool called "Dimensions of Success (DOS) for Children's Museum Exhibits." Research also produced a tool for monitoring the movement of children and families in Museum exhibit space, including time on task with exhibits, group constellation, transition time, and time in gallery. Several studies about adult-child interactions during digital STEM and traditional pretend play in the Museum produced findings about social positioning, interaction style, role, and affect during play.
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TEAM MEMBERS:
Deb DunkhaseKristen MissallBenjamin DeVane
The Wild Center will partner with Adirondack Museum, Cornell’s Maple Program, and New York State/Northeastern New York Maple Producers Associations to build regional identity, revitalize a heritage industry, and connect people to nature through the art, story, history, and science of maple sugaring. The Northern New York Maple Project will create interpretative exhibits with ecological, historical, and economic information. The museum will develop an instructional maple sugaring video; a touch-screen story kiosk that lets visitors share stories through the exhibit and social media; a storytelling workshop for staff, project partners, and maple producers; community events and conferences; a school education program; community sugaring workshops; and educational materials, website, social media, and outreach to industry, food enthusiasts, and the business community. Regular planning meetings on goals and deliverables will track results and an outside consultant will evaluate the overall success of the project.
With support from the Institute of Museum and Library Services, The Wild Center (TWC) engaged Insight Evaluation Services (IES) to assess the impact of specific outreach activities of the Northern New York Maple Project between September 2013 and September 2015. Data for this two-year evaluation study were collected via in-depth telephone interviews conducted with a total of 25 participants, including 16 Tupper Tappers (Tupper Lake area residents who engaged in backyard tapping to provide sap for syrup production at the museum through the Community Maple Project), four local school teachers
The L.C. Bates Museum will provide 1,700 rural fourth grade students and their families museum-based STEAM (Science, Technology, Engineering, Art, and Mathematics) educational programming including integrated naturalist, astronomy, and art activities that explore Maine's environment and its solar and lunar interactions. The project will include a series of eight classroom programs, family field trips, TV programs, family and classroom self-guided educational materials, and exhibitions of project activities including student work. By bringing programs to schools and offering family activities and field trips, the museum will be able to engage an underserved, mostly low-income population that would otherwise not be able to visit the museum. The museum's programming will address teachers' needs for museum objects and interactive explorations that enhance student learning and new Common Core science curriculum objectives, while offering students engaging learning experiences and the opportunity to develop 21st century leadership skills.
This briefing paper reports findings from the Youth Access & Equity in Informal Science Learning (ISL) project,
a UK-US researcher-practitioner partnership funded by the Science Learning+ scheme. Our project focuses on young people aged 11-14 primarily from under-served and non-dominant communities and includes researchers and practitioners from a range of ISL settings: designed spaces (e.g. museums, zoos), community-based (e.g. after school clubs) and everyday science spaces (e.g. science media).