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 Change Makers project will establish Food Justice Ambassador corps across three cities in Massachusetts where youth will install, manage and learn the science and technology underlying hydroponics. The project takes a near-peer mentoring approach that empowers high school youth to take the lead in improving ethnic minority and low-income residents' access to healthy produce and to help educate middle school youth regarding the value of fresh produce in one's diet by learning the science of hydroponics. Youth will create story maps to visualize food accessibility in their communities. High school youth will work with their communities to establish hydroponic farms in middle school after-school settings. The food that is grown will be provided to the community through farmers' markets. Youth will share their work with a larger community of urban farmers at the Massachusetts Urban Farming Conference. This project seeks to understand the contribution on youth development by the model's three components: (1) STEM learning embedded in a social justice framework, (2) near-peer mentoring, and (3) youth purpose and career development. This will enable researchers to better understand how the project enables youth to learn STEM skills; apply them to a real life problem; learn the relevance of STEM skills for addressing personal, career aspiration, and social justice issues; develop a sense of purpose and aspirations related to STEM fields; and mentor other youth through the same process. The project will use a mixed-method, multi-site longitudinal study utilizing quantitative surveys, structural equation modeling, and qualitative interviews to study the intersections of the components of the project. As such, the study will address three key questions: 1) How do youth and mentors perceive and experience their roles as participants in the pedagogy? 2) What is the impact of the intervention on youth' sense of purpose, identity, career adaptability, work volition, critical consciousness, school engagement, STEM interests, and STEM intentionality? 3) What is the contribution of relational/mentoring and psychosocial/career adaptability aspects of the youths' contexts on their capacity to benefit from this program and to develop and sustain purpose and engagement in school and STEM? Most urban youth (and adults) have little knowledge of where their food comes from and have limited opportunities to learn how to grow produce as well as develop related skills that can lead to a career in a STEM field. This is particularly disconcerting as 55% of African Americans live inside central cities (90% in metropolitan areas) and over half of all Latino/as live in central cities (United States Census Bureau, 2011). This project entails the recruitment of low-income youth from populations underrepresented in science into a program where social justice concerns (food justice, food security) are illuminated, analyzed, and acted upon through the development of STEM knowledge and skills. Specifically, this project recognizes the potential for urban youth to become deeply knowledgeable citizens who can mobilize their STEM knowledge and skills to resolve social injustices such as food deserts. If successful, this project will provide a model that should be transferable to similar contexts to help broaden participation in STEM.
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TEAM MEMBERS:
George BarnettBelle LiangDavid Blustein
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This project will advance knowledge in the design of interest triggers for science in immersive digital simulation learning games. When learners are interested in a topic, it can have a profound impact on the quality of their learning. Although much is known about how informal learning experiences can promote interest in STEM, much less research has addressed links between technology use and interest development. This Exploratory Pathways project will investigate (1) the impact of entertainment technology use by middle school learners on STEM interest development, (2) the design of interactive educational technologies created specifically to trigger interest in astronomy, and (3) informal learning resources for sustained interaction with STEM content over time. In particular, learners will have the opportunity to interactively explore the scientific consequences of considering alternative versions of Earth via "What if?" questions, such as "What if the earth had no moon?" or "What if the earth were twice its current size?". While using the simulations, learners will be invited to make observations and propose scientific explanations for what they see as different. Given recent discoveries of potentially habitable worlds throughout the Galaxy, such questions have high relevance to public discourse around space exploration, conditions necessary for life, and the long-term future of the human race. Studies will occur across three informal learning settings: museum exhibits, afterschool programs, and summer camps, and are driven by the following research questions: What technology-based triggers of interest have the strongest influence on interest? Which contextual factors are most important for supporting long-term interest development? And, what kinds of technology-based triggers are most effective for learners from audiences who are underrepresented in STEM? This research will result in an empirically tested approach for cultivating interest that will allow educators to leverage the "What if?" pedagogy in their own work, as well as downloadable materials suitable for use in both informal and formal learning settings.
Planned studies will identify features that are effective in triggering interest, with an emphasis on groups underrepresented in STEM, and elaborate on the importance of engaging learners in explanatory dialogues and in service of interest development. It is hypothesized that interacting in such novel ways can act as a trigger for interest in astronomy, physics, and potentially other areas of STEM. Design iterations will also investigate different forms of learning supports, such as guidance from facilitators, collaboration, and automated guidance available within the simulations, and identify how features vary with respect to learning contexts. Data collected will include interview and survey data to track interest development, measures of knowledge in astronomy and physics, and log files of simulation use to better understand how behaviors in the simulations align with stated interests. Results of the studies will advance the theoretical understanding of interest development and its relationship to interactive experiences, and will also have practical implications for the deployment of technology in informal settings by identifying features critical for triggering the interest of middle school learners. 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 experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
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TEAM MEMBERS:
H Chad LaneJorge Perez-GallegoNeil Comins
As a part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds research and innovative resources for use in a variety of settings. This Broad Implementation project would scale up the CryptoClub Project, an afterschool and online program designed to engage middle school youth in mathematics and cryptography. The project builds on previous successful work and evaluation that is ready for scale up using a train-the-trainer model implemented through a partnership with the National Girls Collaborative. The project will train 160 new CryptoClub leaders who will then train 800 new leaders at 20 hub sites reaching 9600 students. In addition, professional development modules and webinars will continue to refresh leader skills. Other project components include an online multiplayer cryptography game, weekly challenges through social media, and digital cryptology badges for students.
The research uses a think-aloud method with students as they actually attempt to solve the cryptology problems using mathematical thinking. Three think-aloud studies will be performed during the Project. The research team will code transcripts of the interviews for evidence of the mathematical thinking intended to be addressed by each activity, as well as capturing unexpected kinds of thinking. Tasks will also be rated according to the type of knowledge elicited. A written report will include statistical analyses of the think-aloud and interview responses, interpreted in light of the overall CryptoClub goals. The findings will contribute to both future research efforts and practice. The evaluation by EDC uses a quasi-experimental design, which assesses project outcomes for trainers, leaders, students, and Internet users. EDC will also investigate the fidelity to the CryptoClub model as it is scaled up. These studies have strong potential for informing numerous other projects that are at a stage where scale up is under consideration.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. The project will fill a major gap in knowledge regarding why children listen to science podcasts and what impact they have on their STEM learning. Brains On! is an existing podcast for children 6-12 years old that is produced by American Public Media. The podcasts are kid-driven. Kid listeners send in questions and suggest the show topics. Every episode is co-hosted by a different child, who interviews top scientists about their work, sees research done first hand and helps shape the overall arc of the episode. The project team collaborates with a wide variety of scientists to create programming that is both appealing to kids and has scientific merit. Although Brains On! has enjoyed more than 2.4 million downloads collectively of its 50-episode library little is known about why children are drawn to it, how they are using its content, and what the impacts might be for those who listen to the podcast. There has been no previous research to understand why children choose to listen, or what impact it has on their learning. This Pathways project would produce new episodes and collaborate with the Science Museum of Minnesota that would conduct research to fill this large gap in understanding aural learning through podcasts. The Brains On! project has the following goals to create strategic impact: 1) explore and begin to develop knowledge around what makes children's science podcasts, such as Brains On!, appealing and what role they can play in impacting children and their families' science curiosity, learning, and awareness of science careers, and 2) develop a theory of action for the Brains On! podcast that could also inform the development of similar kinds of children's science podcasts. A mixed-methods exploratory research study will be carried out to address these goals. The three overarching research questions are: Who is the audience for Brains On! and what are their motivations for listening to science podcasts? How are Brains On! listeners using the podcast and engaging with its content? What kinds of impacts does Brains On! have on its audiences? The research results, including the theory of action, from the Brains On! exploratory study will benefit the fields of informal science education and public media by beginning to fill a gap in the current knowledge-base around the potential for science children's podcasts to contribute to a wide range of informal science learning outcomes for children and families, as well provide insight into what features of children's science podcasts can lead to those outcomes. The study results may also encourage other public media and informal science education organizations to create their own science podcasts for children, increasing the reach and potential impact of this emerging STEM media resource.
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TEAM MEMBERS:
Molly BloomSanden TottenLauren DeeMarc SanchezAmy Grack Nelson
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 Research in Service to Practice project will address the issues around Informal Education of rural middle school students who have high potential regarding academic success in efforts to promote computer and IT knowledge, advanced quantitative knowledge, and STEM skills. Ten school districts in rural Iowa will be chosen for this study. It is anticipated that new knowledge on rural informal education will be generated to benefit the Nation's workforce. The specific objectives are to understand how informal STEM learning shapes the academic and psychosocial outcomes of rural, high-potential students, and to identify key characteristics of successful informal STEM learning environments for rural, high-potential students and their teachers. The results of this project will provide new tools for educators to increase the flow of underserved students into STEM from economically-disadvantaged rural settings.
The President's Council of Advisors on Science and Technology predicts a rapid rise in the number of STEM jobs available in the next decade, describing an urgent need for students' educational opportunities to prepare them for this workforce. In 2014, 62% of CEOs of major US corporations reported challenges filling positions requiring advanced computer and information technology knowledge. The project team will use a mixed methods approach, integrating comparative case study and mixed effects longitudinal methods, to study the Excellence program. Data sources include teacher interviews, classroom observations, and student assessments of academic aptitude and psychosocial outcomes. The analysis and evaluation of the program will be grounded in understanding the local efforts of school districts to build curriculum responsive to the demands of their high-potential student body. The project design, and subsequent analysis plan, utilizes a mixed methods approach, incorporating case study and longitudinal quantitative methods to analyze naturalistic data and build robust evidence for the implementation and impact of this program. This project will provide significant insights in how best to design, implement, and support informal out-of-school learning environments to broaden participation in the highest levels of STEM education and careers for under-resourced rural students.
Public Participation in Scientific Research (PPSR), often referred to as crowdsourcing or citizen science, engages participants in authentic research, which both advances science discovery as well as increases the potential for participants' understanding and use of science in their lives and careers. This four year research project examines youth participation in PPSR projects that are facilitated by Natural History Museums (NHMs). NHMs, like PPSR, have a dual focus on scientific research and science, technology, engineering, and mathematics (STEM) education. The NHMs in this project have established in-person and online PPSR programs and have close ties with local urban community-based organizations. Together, these traits make NHMs appropriate informal learning settings to study how young people participate in PPSR and what they learn. This study focuses on three types of PPSR experiences: short-term outdoor events like bioblitzes, long-term outdoor environmental monitoring projects, and online PPSR projects such as crowdsourcing the ID of field observations. The findings of this study will be shared through PPSR networks as well as throughout the field in informal STEM learning in order to strength youth programming in STEM, such that youth are empowered to engage in STEM research and activities in their communities. 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.
The study employs observations, surveys, interviews, and learning analytics to explore three overarching questions about youth learning: 1) What is the nature of the learning environments and what activities do youth engage in when participating in NHM-led PPSR? 2) To what extent do youth develop three science learning outcomes, through participation in NHM-led citizen science programs? The three are: a) An understanding of the science content, b) identification of roles for themselves in the practice of science, and c) a sense of agency for taking actions using science? 3) What program features and settings in NHM-led PPSR foster these three science learning outcomes among youth? Based on studies occurring at multiple NHMs in the US and the UK, the broader impact of this study includes providing research-based recommendations for NHM practitioners that will help make PPSR projects and learning science more accessible and productive for youth. This project is collaboration between education researchers at University of California, Davis and Open University (UK), and Oxford University (UK) and citizen science practitioners, educators, and environmental scientists at three NHMs in the US and UK: NHM London, California Academy of Sciences, and NHM Los Angeles.
Makerspaces and engineering design spaces have proliferated in science museums, schools, libraries, and community settings at a rapid pace. However, there is a risk that some of the same inequities that exist in the engineering field are being replicated in these settings. Research has provided evidence of persistent gaps between boys' and girls' levels of interest in engineering as it has been traditionally represented in informal learning environments, particularly in Making and engineering spaces. This Research-In-Service to Practice project intends to address this gap by employing a design-based research approach to examine if and to what extent narrative elements can interest and engage middle school girls in science, technology, engineering, and mathematics (STEM), and promote equitable, effective engineering design experiences and practices. This work is significant, as it will build upon current research and conceptual understanding of how to design narrative-rich engineering design activities for informal learning spaces, especially for girls, and within museum drop-in experiential learning contexts. It will also contribute to the evidence base regarding how girls approach and choose to persist in solving engineering design problems. The 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 New York Hall of Science (NYSCI) in collaboration with the Amazeum in Bentonville, Arkansas, the Tech Museum of Innovation in San Jose, California, the Creativity Labs at Indiana University and a team of advisors will conduct the 30-month, design-based research project in two phases. In the first phase, NYSCI will garner ongoing input from its partners to develop parallel versions of six pairs of engineering design activities, one with narrative elements and one without. These activities will be iteratively tested in NYSCI's Design Lab, a 10,000 square foot exhibition devoted to hands-on exploration of engineering design. Several research questions will be explored, focused primarily on building evidence-based design knowledge, establishing appeal and comprehensibility, and understanding facilitation. Observational and interview data will be garnered from 30 girls aged 7-14 and their family groups for each of the twelve activities developed, totaling 360 girls in the study sample. The results of the research on the paired activities will be iterative and provide insight on how narrative elements can most effectively invite girls into sustained engagement with the core engineering concepts and practices highlighted in each activity. In the second phase, formative and summative evaluation will be conducted to study the impact of the narrative and non-narrative versions of the engineering design activities on participating girls' engagement and persistence, by contrasting the quality of girls' engagement across the two types of activities while they are implemented across three museum sites. Project deliverables include journal articles reporting on project findings; documentation of activities that meet project goals; design guidelines for exhibit and curriculum developers who are interested in using narrative effectively to frame engineering design activities; and practical guidance for facilitators seeking to ensure that they are supporting girls effectively as they explore those activities.
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 study will capitalize on the increased availability and affordability of immersive interactive technologies, such as Augmented Reality devices and virtual characters, to investigate their potential for benefitting STEM learning in informal museum contexts. This project will combine these technologies to create an Augmented Reality experience that will allow middle-school youth and their families to meet and assist a virtual crew on a historic ship at the Independence Seaport Museum in Philadelphia. The players in this game-like experience will encounter technologies from the turn of the 20th century, including steam power, electricity, and wireless communication. Crew members and technologies will be brought to life aboard the USS Olympia, the largest and fastest ship in the US Navy launched in 1892. The historic context will be positioned in relation to current day technologies in ways that will enable a change in interest towards technology and engineering in middle school-age youth. This will result in a testbed for the feasibility of facilitating short-term science, technology, engineering and mathematics (STEM) identity change with interactive immersive technologies. A successful feasibility demonstration, as well as the insights into design, could open up novel ways of fostering STEM interest and identity in informal learning contexts and of demonstrating the impact of this approach. The potential benefit to society will rest in the expected results on the basic science regarding immersive interactive technologies in informal learning contexts as well as in demonstrating the feasibility of the integrated approach to assessment.
This project will use a living lab methodology to evaluate interactive immersive technologies in terms of their support for STEM identity change in middle-school age youth. The two-year design-based research will iteratively develop and improve the measurement instrument for the argument that identity change is a fundamental to learning. A combination of Augmented Reality and intelligent virtual agents will be used to create an interactive experience--a virtual living lab--in an informal museum learning exhibit that enables change interests towards technology and engineering and provides short-term assessment tools. In collaboration with the Independence Seaport Museum in Philadelphia, the testbed for the approach will be an experience that brings to life the technologies of the early 20th century aboard a historic ship. Through the application of Participatory Action Research techniques, intelligent virtual agents interacting with youth and families will customize STEM information relating to the ship's mission and performance. Topics explored will make connections with current day technologies and scientific understanding. Mixed-methods will be used to analyze interactions, interview and survey data, will form the basis for assessing the impact on youth's STEM interests. The elicitation method specifically includes assessment metrics that are relevant to the concept of learning as identity change. This assessment, through immersive interactive technologies, will target the priority areas of engagement in STEM as well as the measurement of outcomes.
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TEAM MEMBERS:
Stefan RankAyana AllenGlen MuschioAroutis FosterKapil Dandekar
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. The project plans to deliver and improve a constructivist professional development (PD) program called Remake Making for library staff that work with youth in maker spaces. The proposed project will be led by a team at the University of Pittsburgh and builds on a pilot facilitation framework developed in an earlier project by this team. The PD program responds to the rapid growth of makerspaces with a constructivist PD program focused on facilitation. Maker spaces are a new service model in many public libraries, part of a broader shift in general library services. Effective facilitation for learning, like that required in makerspaces, is a relatively new facet of librarianship that is not a consistent part of librarian education or PD. The project will work with two local library systems with libraries that have makerspaces but little to no PD opportunities around facilitation. The project plans to iteratively design and investigate the Remake Making program, its impact on library maker facilitators and their interactions with child and youth learners. This will provide a setting for preliminary research about constructivist PD and the experiences and struggles of staff who facilitate making in libraries within the context of shifting library norms. This project will produce an efficient, maker-friendly PD system for facilitation in makerspaces, applicable to a broad range of informal and formal educators who wish to incorporate facilitated making.
The project plans to conduct an iterative development process involving several cohorts of participants and using multiple data sources which include embedded PD workshop data, participant pre-post surveys, observation of library makerspaces, and interviews/focus groups. A participatory approach will be employed by involving participants in creating and refining research questions within the scope of the project. This approach is designed around inquiry-based improvement, which is experienced by participants as reflective practice or continuous improvement. The proposed project aims to advance knowledge and PD strategies for facilitation in library makerspaces. The research will build knowledge about the efficacy of an innovative constructivist PD program with adaptation as a key feature. The data collected in the context of the development of this innovation will provide opportunities for applied research about informal STEM learning in the context of library maker spaces, and the role that library staff play in facilitating this type of learning.
The Cyberlearning and Future Learning Technologies Program funds efforts that support envisioning the future of learning technologies and advance what we know about how people learn in technology-rich environments. In this Cyberlearning EAGER project, the project team is developing foundations for using "paper mechatronics" as a learning technology. Paper mechatronics makes possible a craft-oriented approach to engineering and computing education that integrates key concepts from mechanical engineering, electrical engineering, control systems, and computer programming, while using paper as the primary material for learner design, exploration, and inquiry. In this approach, learners will design foldable paper components and assemblies; program motors, sensors and controls; test their ideas iteratively; and share their designs on a website. This paper-based modeling approach to learning concepts in and practices of mechanical engineering, electrical engineering, control systems, and computer programming ultimately aims to make it possible for all learners to have exposure to and the opportunity to participate in creative engineering, design, and computer programming.
The approach to learning through designing and making through paper mechatronics is made possible by a convergence of many different technological factors -- the array of small computers, sensors, and actuators that are becoming available at low cost and a size that children can use; availability of a wide variety of manipulable conductive materials (threads, paints, fabrics); low-cost and precise desktop and laser cutters for paper and similar materials; a wide variety of novel paper-like materials; and new ways of interacting with the computer. The approach has its foundations in Papert's constructionism and in the current maker movement, but it has potential beyond constructionism itself, both in practice and with respect to what can potentially be learned about learning and development in in context of its use.
Arkansas State University (ASU) Museum will offer engaging STEM (Science, Technology, Engineering, and Math) learning experiences for children, at-risk youth, and teachers through three years of membership in the Arkansas Discovery Network, a coalition of seven Arkansas museums that develops and shares children's exhibits. Membership in the network will entitle ASU to nine high-quality, hands-on, STEM-based exhibits that promote "learning by doing" and the needed training in their STEM programming for educators. ASU Museum staff will build substantially upon these exhibits by developing many new and engaging tours, gallery activities, and programs that ensure STEM content registers in learners. This project will enable the museum to offer exceptional experiences with the potential to change attitudes about the value of learning in the targeted audiences in Northeast Arkansas.
The Clay Center for Arts and Sciences of West Virginia will create professional learning communities of teachers and after-school staff serving 7th grade students at seven partner schools using digital storytelling as a tool to explore energy-related topics impacting their communities. West Virginia's role as a leading coal producer and the impact of natural gas drilling served as strong influencing factors in the creation of this STEAM project, titled emPOWERed Stories. Students will create an exhibit that incorporates these digital stories. The results will inform the broader field on ways to better blend formal and informal education experiences to become more potent learning environments.