On the first day of the Science and Society course at the Cooperstown Graduate Program in Cooperstown, New York, I present the students with an incandescent lightbulb, with clear glass so one can easily see the filament inside. I ask the students how it works and they are able to tell me that the electricity comes in there, runs through the filament here, heats up, and produces light. Then I take out my iPhone and slide it across the table and ask, “How does this work?” Blank stares abound.
Science researchers and practitioners are often challenged by how best to assess the effectiveness of science activities on young children whose language skills are still emerging. Yet, research has demonstrated the critical importance of early learning on individual potential. Building on evidence that movement is tightly intertwined with thinking, this project will investigate how thought and movement link as embodied learning to accelerate science understanding. Research will be conducted in the United States (US) and the United Kingdom (UK) with the aim to gather evidence for embodied interactions during science learning and articulate design principles about how museum exhibits can most effectively encourage cognitive and physical engagement with science. Such guidelines are largely absent in the field of informal STEM learning, and so this project seeks transformational change in how learning is understood and recognizes that changes in knowledge can be developed and revealed through body-based movements as well as verbally. Such a view is critically important given that many early learners communicate understanding through nonverbal channels before verbal. Research will be conducted with a diverse population of children and will explore the application of embodied learning to communities that are underrepresented in STEM. This project is funded through Science Learning+, which is an international partnership between the National Science Foundation (NSF) and the Wellcome Trust with the UK Economic and Social Research Council. The goal of this joint funding effort is to make transformational steps toward improving the knowledge base and practices of informal STEM experiences. Within NSF, Science Learning+ is part of the Advancing Informal STEM Learning (AISL) program that seeks to enhance learning in informal environments and to broaden access to and engagement in STEM learning experiences. During a 3-year period, researcher-practitioner teams across six museum sites will collaboratively investigate the links between movement and learning outcomes at selected science exhibits designed for young learners. Research activities will involve iteration and refinement of new instruments and protocols, through analysis of observed and automated capture of interaction data, and synthesis and interpretation of data. A design-based research methodology will be applied to address three key questions: 1) What elements of sensory and action experiences are key to informing the design of exhibits that aim to exploit embodied interactions for learning; 2) What is the role of bodily enactment /gestures in assessing children's understanding of science concepts; and 3) What cultural differences in kinds of embodied engagement emerge across diverse museum settings? Video and audio data of 400 children's exhibit interactions will be collected. Pre/post semi-structured interviews will be conducted with a subset of these participants and will focus on children's understanding of relevant science concepts as well as personal reflections on their physical and emotional experience engaging with the exhibit. This project would raise awareness of embodied approaches to learning as well as build stronger collaborations between informal STEM educators and cognitive researchers. Utilization of informal and formal dissemination networks will support wide diffusion of project outcomes. This is critically important given strong evidence pointing to the impact of preschool education in underserved populations, and ongoing national efforts by the US and UK to improve the quality of STEM learning in preschool contexts.
Project partners supported by NSF funding include The Phillip and Patricia Frost Museum of Science, University of Illinois Urbana Champaign, The Children's Museum of Indianapolis, andSciencenter (Ithaca).
Partners supported by the Wellcome Trust include University of Edinburgh, University College London, Glasgow Science Centre, Science Museum London, and Learning through Landscapes.
One way to encourage youth to pursue training in the STEM fields and enter the STEM workforce is to foster interest and engagement in STEM during adolescence. Informal STEM Learning Sites (ISLS) provide opportunities for building interest and engagement in the STEM fields through a multitude of avenues, including the programming that they provide for youth, particularly teens. Frequently, ISLS provide opportunities to participate in volunteer programs, internships or work, which allow teens both to learn relevant STEM knowledge as well as to share that knowledge with others through opportunities to serve as youth educators. While youth educator programs provide rich contexts for teens to engage as both learners and teachers in these informal STEM environments, research to date has not yet identified the relationship between serving as youth educators and STEM engagement. Thus, the goal of this project is to document the impact of youth educators on visitor learning in ISLS and to identify best practices for implementing youth educator programs. The project studies STEM interests and engagement in the youth participants and the visitors that they interact with at six different ISLS in the US and UK. This project is funded through Science Learning+, which is an international partnership between the National Science Foundation (NSF) and the Wellcome Trust with the UK Economic and Social Research Council. The goal of this joint funding effort is to make transformational steps toward improving the knowledge base and practices of informal STEM experiences. Within NSF, Science Learning+ is part of the Advancing Informal STEM Learning (AISL) program that seeks to enhance learning in informal environments and to broaden access to and engagement in STEM learning experiences.
This project examines youth educator experiences related to STEM identity, educational aspirations, and motivation. The project also identifies outcomes that the youth educators have on visitors to ISLS in terms of knowledge, interest, and engagement in STEM. The specific aims are: 1) Outcomes for Teens - To measure the longitudinal impact of participation in an extended youth educator experience in an ISLS; 2) Outcomes for Visitors - To compare visitor engagement with and learning from exhibits in ISLS when they interact with a youth educator, relative to outcomes of interacting with an adult educator or no educator; and 3) Outcomes Across Demographics and STEM Sites - To examine differences in visitor engagement based on participant characteristics such as socio-economic status (SES), age, gender, and ethnicity and to compare outcomes of youth educator experiences across different types of ISLS. This research, which draws on expectancy value theory and social cognitive theory, will follow youth participants longitudinally over the course of 5 years and use latent variable analyses to understand the impact on the youth educators as well as the visitors with whom they interact. Importantly, the results of this research will be used to develop best practices for implementing youth educator programs in ISLS and the results will be disseminated to both academic and practice-based communities.
This project has clear and measurable broader impacts in a variety of ways. First, the project provides guidance to improve programming for youth in ISLS, including both the sites involved directly in the research and to the larger community of ISLS through evaluation, development, and dissemination of best practices. Additionally, this project provides rigorous, research-based evidence to identify and describe the outcomes of youth educator programs. This study directly benefits the participants of the research, both the visiting public and the youth educators, through opportunities to engage with science. The findings speak to issues of access and inclusivity in ISLS, providing insight into how to design environments that are welcoming and accessible for diverse groups of learners. Finally, this project provides evidence for best practices for ISLS in developing programs for youth that will lead to interest in and pursuit of STEM careers by members of underrepresented groups.
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TEAM MEMBERS:
Adam Hartstone-RoseMatthew IrvinKelly Lynn MulveyElizabeth ClemensLauren ShenfeldAdam RutlandMark WinterbottomFrances BalkwillPeter McOwanKatie ChambersStephanie TylerLisa Stallard
Produced by the Climate Change Education Partnership (CCEP) Alliance, the "Climate Change Education: Effective Practices for Working with Educators, Scientists, Decision Makers and the Public" guide provides recommendations for effective education and communication practices when working with different types of audiences. While effective education has been traditionally defined as the acquisition of knowledge, Alliance programs maintain a broader definition of “effective” to include the acquisition and use of climate change knowledge to inform decision-making.
The CCEP Alliance is supported
Front-line staff are an integral part of the visitor experience at museums and science centers across the country, facilitating activities and programs, leading classes, and more. But do these staff make a difference for visitor learning? And what are the most effective facilitation strategies and approaches? In 2013, the Oregon Museum of Science and Industry (OMSI) received funding from the National Science Foundation for a three-year study, Researching the Value of Educator Actions for Learning (REVEAL), to begin to address these questions. Building on the Design Zone exhibition, REVEAL
This document is a list of culturally responsive research resources developed by the Researching the Value of Educator Actions for Learning (REVEAL) project.
This document outlines the culturally responsive research (CRR) framework developed to guide planning, data collection and analysis, and dissemination throughout the Researching the Value of Educator Actions for Learning (REVEAL) project. REVEAL was a National Science Foundation-funded initiative that studied the impact of staff facilitation by museum educators on family learning at interactive exhibits in a science center. Led by the Oregon Museum of Science and Industry, the project was conducted in partnership with Oregon State University and TERC. The project included a design-based
The Oregon Museum of Science and Industry (OMSI), located in Portland, is a hands-on science museum. In 2013, OMSI received funding from the National Science Foundation for the project Researching the Value of Educator Actions for Learning (REVEAL) to study how museum educators can better help families learn math while interacting with museum exhibits. Through REVEAL, OMSI was able to partner with Adelante Mujeres, a non-profit community organization located in Forest Grove that educates and empowers Latina women and their families. Here we share some of the lessons learned from the
From 2013-2016, Pacific Science Center, implemented the Exploring Earth Systems Sciences (EESS) project with the purpose of developing and delivering scripted demonstrations utilizing the Science On a Sphere (SOS) technology in order to promote understanding of and increase interest in Earth systems sciences. Specifically, the grant allowed the Science Interpretation team to research and write 20-minute presentations, targeted towards visitors aged 11 and older, about nine unique topics such as: climate change, weather, seasons, or the Polar Regions. Staff were then provided training in
Many people believe that both public policy and personal action would improve with better access to “reliable knowledge about the natural world” (that thing that we often call science). Many of those people participate in science education and science communication. And yet, both as areas of practice and as objects of academic inquiry, science education and science communication have until recently remained remarkably distinct. Why, and what resources do the articles in this special issue of JRST give us for bringing together both the fields of practice and the fields of inquiry?
The fields of science education and science communication share the overarching goal of helping non-experts and non-members of the professional science community develop knowledge of the content and processes of scientific research. However, the specific audiences, methods, and aims employed in the two fields have evolved quite differently and as a result, the two fields rarely share findings and theory. Despite this lack of crosstalk, one theoretical construct—framing—has shown substantial analytic power for researchers in both fields. Specifically, both fields have productively made use of
The informal STEM education (ISE) field is a landscape that includes a variety of institutions beyond schools, including museums, science centers, zoos, youth and adult organizations, documentary film producers—and public libraries (J. H. Falk, Randol, and Dierking 2012). Libraries across the country have been reimagining their community role and leveraging their resources and public trust to strengthen communnity-based learning and foster critical thinking, problem solving, and engagement in STEM.