The goal of the project is to research ways in which the teaching of basic computing skills can be integrated into after-school choral programs. The team will study how to adapt the interdisciplinary, computing + music activities developed to date in their NSF-funded Performamatics project with college-aged students to now introduce middle school-aged students to computing in an informal, after-school choral program. They will investigate how to leverage the universal appeal of music to help students who typically shy away from technical studies to gain a foothold in STEM (Science, Technology, Engineering, and Mathematics) by programming choral music. It 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 team will use a qualitative and quantitative, mixed-methods approach to study four research questions: (1) Can middle school-aged children follow the connections from singing to digitized sound to MIDI and back to music and learn to program using the songs they like to sing? To encourage students to become involved with manipulating sounds and programming music on their own computers, the approach will employ Audacity and Scratch, two free music recording, editing, and generation platforms. The team will study how well programming of music helps them acquire STEM skills by assessing the complexity and efficacy of the programs they can learn to code. (2) Can programming their individual parts help students learn to sing in three- and four-part harmony? The main focus is on learning of STEM, but research on this question will evaluate whether programming skills can help students learn about music too. (3) What resources, models, and tools (RMTs) are necessary to integrate STEM education into a middle school after-school choral program? The team will work with local middle schools to research techniques for integrating computing into after-school choral programs without disrupting their musical focus. They will identify what choral teachers need in order to do this integration, and they will devise and evaluate techniques for adding STEM skills to the students' choral experience. (4) Can the involvement of adults who match the students' racial and/or cultural backgrounds have a positive effect on the "people like me don't (or can't) do that?" belief that so often stifles efforts to attract underrepresented groups to STEM? They will actively seek to involve students of underrepresented groups in the program by recruiting adult role models from these groups who are involved with both music and computing. They will use attitudinal surveys to assess whether these adults have any effect on the students' self-efficacy and the "people like me" syndrome that hinders some from engaging in STEM.
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. Development and Implementation (DIP) Projects build on proof-of-concept work that shows the possibilities of the proposed new type of learning technology, and PI teams build and refine a minimally-viable example of their proposed innovation that allows them to understand how such technology should be designed and used in the future and that allows them to answer questions about how people learn, how to foster or assess learning, and/or how to design for learning. This project is building and studying a new type of online learning community. The WeatherBlur community allows kids, teachers, scientists, fishermen/fisherwomen, and community members to learn and do science together related to the local impacts of weather and climate on their coastal communities. Members of the community propose investigations, collect and share data, and learn together. WeatherBlur is designed to be a new form of knowledge-building community, the Non-Hierarchical Online Learning Community. Unlike other citizen science efforts, there is an emphasis on having all members of the community able to propose and carry out investigations (and not just help collect data for investigations designed by expert scientists or teachers). Prior research has demonstrated important structural differences in WeatherBlur from other citizen science learning communities. The project will use social network analysis and discourse analysis to measure learning processes, and Personal Meaning Mapping and embedded assessments of science epistemology and graph interpretation skills to examine outcomes. The measures will be used to explore knowledge-building processes and the scaffolds required to support them, the negotiation of explanations and investigations across roles, and the epistemic features that drive this negotiation process. The work will be conducted using an iterative design-based research process in which the prior functioning WeatherBlur site will be enhanced with new automated prompt and notification systems that support the non-hierarchical nature of the community, as well as tools to embed assessment prompts that will gauge participants' data interpretation skills and epistemic beliefs. Exponential random graph modeling will be used to analyze the social network analysis data and test hypotheses about the relationship between social structures and outcomes.
The Next Generation Science Standards (NGSS) identify an ambitious progression for learning energy, beginning in elementary school. To help the nation's teachers address this challenge, this project will develop and investigate the opportunities and limitations of Focus on Energy, a professional development (PD) system for elementary teachers (grades 3-5). The PD will contain: resources that will help teachers to interpret, evaluate and cultivate students' ideas about energy; classroom activities to help them to identify, track and represent energy forms and flows; and supports to help them in engaging students in these activities. Teachers will receive the science and pedagogical content knowledge they need to teach about energy in a crosscutting way across all their science curricula; students will be intellectually engaged in the practice of developing, testing, and revising a model of energy they can use to describe phenomena both in school and in their everyday lives; and formative assessment will guide the moment-by-moment advancement of students' ideas about energy. This project will develop and test a scalable model of PD that will enhance the ability of in-service early elementary teachers to help students learn energy concepts by coordinating formative assessment, face-to-face and web-based PD activities. Researchers will develop and iteratively refine tools to assess both teacher and student energy reasoning strategies. The goals of the project include (1) teachers' increased facility with, and disciplined application of, representations and energy reasoning to make sense of everyday phenomena in terms of energy; (2) teachers' increased ability to interpret student representations and ideas about energy to make instructional decisions; and (3) students' improved use of representations and energy reasoning to develop and refine models that describe energy forms and flows associated with everyday phenomena. The web-based product will contain: a set of formative assessments to help teachers to interpret student ideas about energy based on the Facets model; a series of classroom tested activities to introduce the Energy Tracking Lens (method to explore energy concept using multiple representations); and videos of classroom exemplars as well as scientists thinking out loud while using the Energy Tracking Lens. The project will refine the existing PD and build a system that supports online implementation by constructing a facilitator's guide so that the online community can run with one facilitator.
DATE:
-
TEAM MEMBERS:
Sara LacyRoger TobinNathaniel BrownStamatis VokosRachel ScherrKara GrayLane SeeleyAmy Robertson
The Exploratorium comes together with the Education Development Center, Inverness Research, TERC, the University of Colorado - Boulder, and the University of Washington to form a Research+Practice (R+P) Collaboratory. The Collaboratory seeks to address and reframe the gap between research and practice in K-12 STEM education. This gap persists despite decades of work by many leading organizations, associations, and individuals. Attempts to close the gap have generally focused on creating resources and mechanisms that first explain or illustrate "what research says" and then invite educators to access and integrate findings into practice. Recently, however, attention has turned to the ways in which the medical sciences are addressing the gap between research and clinical practice through the developing field of "translational research." In medicine, the strategy has been to shift the focus from adoption to adaptation of research into practice. Implicit in the notion of adaptation is a bi-directional process of cultural exchange in which both researchers and practitioners come to understand how the knowledge products of each field can strengthen the professional activities in the other. Along these lines, the R+P Collaboratory is working with leading professional associations and STEM improvement efforts to leverage their existing knowledge and experience and to build sustainable strategies for closing the gap. The R+P Collaboratory is developing an online 'Go-To' Resource Center website that houses the resources collected, created, and curated by the Collaboratory. The Resource Center also has significant 'Take-Out' features, with all materials meta-tagged so that they can be automatically uploaded, reformatted, and integrated into the existing communication and professional development mechanisms (e.g., newsletters, digests, conferences, and websites) of a dozen leading professional associations within a Professional Association Partner Network. In light of new and emerging standards in the STEM disciplines, the Collaboratory is focusing its work on four salient and timely bodies of research: (a) STEM Practices, (b) Formative Assessment, (c) Cyberlearning, and (d) Learning as a Cross-Setting Phenomenon. Special emphasis is being placed on research and practice that focuses on the learning of children and youth from communities historically underrepresented in STEM fields.
Over 200 zoos and aquariums in North America are accredited members of the Association of Zoos & Aquariums (AZA), with a shared vision of the future: a world where all people respect, value and conserve wildlife and wild places. Through programs & experiences that reach millions of people each year, we hope to encourage caring and empathy towards all living things, but we lack the tools that are needed to assess whether – and how – we’re reaching this goal. The overall goal of this 2 year collaborative project is to create tools that zoos and aquariums can use to assess whether they’re meeting their goal of encouraging caring and empathy towards wildlife. Project partners (Woodland Park Zoo, Point Defiance Zoo & Aquarium, & Seattle Aquarium) aim to develop, test and share tools that can be used by accredited zoos & aquariums to assess whether their educational programs are having the desired impact of encouraging children’s empathy towards animals. To better inform our understanding of the empathic experience and the role it plays in human relationships with animals, an advisory team comprised of conservation psychologists and evaluation practitioners in the zoo and aquarium field, has been formed to aid in this two year project.
Recent biomedical research has transformed scientific understanding of human biology. But many of these advances haven’t filtered into public awareness, hindering our ability to make good health-related decisions. A new educational program ‒ Biology of Human ‒ will help the public, particularly young people, better understand advances in biomedical research. This innovative, learning research-based science education program is strategically designed to increase awareness of and understanding about new biomedical research developments pertaining to human biology. Biology of Human will provide a sophisticated science education outreach package for students aged 11 to 15 and adults, including parents and educators. The project's goal is to leverage the latest biomedical information and innovations, a dynamic suite of educational and dissemination strategies, and research-driven approach grounded in sociology to broadly educate youth and adults about human biology. A team led by the University of Nebraska State Museum, the Department of Sociology at the University of Nebraska-Lincoln, and the NIH/NCRR-funded Nebraska Center for Virology (a Center of Biomedical Research Excellence) will work with science writers, kids, and educators to complete three specific aims: 1) stimulate interest in and understanding of biomedical research's importance to diverse individuals' health, communities, and environments; 2) establish partnerships among science educators, biomedical researchers, science journalists, and others to create dynamic educational resources focused on biomedical research developments and human biology; and 3) increase youths' interest in biomedical science. Biology of Human will provide adults and youth with several simultaneous, complementary options for learning about how biomedical research has helped us understand human biology including essays, books and blogs; entertaining and scientifically accurate mobile and tablet apps; activities and graphic stories; and a Web site that complements and supports the project's professional development programs. More than 175,000 youth and adults are expected to be directly impacted through this effort.
The World Biotech Tour (WBT) is a multi-year initiative that will bring biotechnology to life at select science centers and museums worldwide. The program, supported by the Association of Science-Technology Centers (ASTC) and Biogen Foundation, is scheduled to run from 2015-2017, with the 2015 cohort in Belgium, Japan, and Portugal. The WBT will increase the impact and visibility of biotechnology among youth and the general public through hands-on and discussion-led learning opportunities. Applications are now open for the 2016 cohort! Learn more and submit an application at http://www.worldbiotechtour.org/become-a-stop
DATE:
-
TEAM MEMBERS:
Association of Science-Technology CentersCarlin Hsueh
The digital revolution has transformed how young people discover and pursue their interests; how they communicate with and learn from other people; and how they encounter and learn about the world around them. How can we identify best practices for incorporating new media technologies into learning environments in a way that resonates with youth, including their interests, goals, and the ways they use technology in their everyday lives? How do we resolve the need to document and recognize informal STEM learning and connect it to formal education contexts? What strategies can be developed for inspiring and tracking student progress towards the learning goals outlined in the Next Generation Science Standards (NGSS)? These questions are the underlying motivation for this CAREER program of research. Digital badges represent a specific kind of networked technology and have been touted as an alternative credentialing system for recognizing and rewarding learning across domains, both inside and outside of formal education contexts. While there is considerable enthusiasm and speculation around the use of digital badges, the extent to which they succeed at empowering learners and connecting their learning across contexts remains largely untested. This project seeks to fill this gap in knowledge. The approach taken for this program of study is a three phased design-based research effort that will be focused on four objectives: (1) identifying design principles and support structures needed to develop and implement a digital badge system that recognizes informal STEM learning; (2) documenting the opportunities and challenges associated with building a digital badge ecosystem that connects informal learning contexts to formal education and employment opportunities; (3) determining whether and how digital badges support learners' STEM identities; and (4) determining whether and how digital badges help learners to connect their informal STEM learning to formal education and employment opportunities. In Phase 1, an existing prototype created in prior work at Seattle's Pacific Science Center will be developed into a fully functional digital badge system. In Phase 2, the PI will also work collaboratively with higher education stakeholders to establish formal mechanisms for recognizing Pacific Science Center badges in higher education contexts. In Phase 3, the badge ecosystem will be expanded and students' use of and engagement with badges will be tracked as they apply to and enter college. The project involves high school students participating in the Discovery Corps program at the Pacific Science Center, undergraduate and graduate students at the University of Washington, and stakeholders in the K-12 and higher education community in Seattle. Educational activities integrated with this program of research will support: (1) mentoring University of Washington students throughout the project to develop their skills as practice-oriented researchers; (2) incorporating the research processes and findings from the project into university courses aimed at developing students' understanding of the opportunities and challenges associated with using new media technologies to support learning; and (3) using the research findings to develop educational outreach initiatives to support other informal STEM learning institutions in their use of digital badges.
As science centers and children's museums re-define their roles in a society that is increasingly linguistically diverse, many seek to engage more effectively with dual language learners. Dual language learners are young children who are still in the process of acquiring basic language skills in their first language while at the same time acquiring a second language. At present, museum professionals face the challenge of developing programs and practices in the absence of research on informal science education for this population. The Center of Science and Industry (COSI) and The Ohio State University (OSU) will collaborate to begin a systematic study of informal science education programs and practices for reaching and serving preschool dual language learners. The improvement of dual language learners' informal science learning experiences is an increasingly important part of efforts to achieve equity and diversity in participation in science. Such efforts are particularly important as this population grows in number and as the significance of early science learning experiences for later achievement becomes better understood. This project will begin to address the lack of research through three interconnected activities: (1) a national needs assessment of children's museums and science museums, (2) an in-person convening and quarterly virtual meet-ups with teams from eight partner museums, and (3) an exploratory study of COSI's programs and practices to support the access, participation, and learning of preschool dual language learners and their parents/caregivers. The project will yield important insights into current practices and priorities with respect to effective museum engagement with dual language learners, their families, and the early childhood professionals who serve them. The project will (1) produce a comprehensive report on the current state of the field related to providing informal science experiences for preschool dual language learners; (2) identify gaps in existing research and practice, as well as promising foci for future study and improvement and expansion of museum practice; and (3) create a full-scale Research in Service to Practice proposal and a national network of museums to implement the proposal. The overarching goal of the project is to advance the knowledge and awareness of needs and practices related to informal science programming for preschool children who are learning English as an additional language. The national needs assessment will be conducted by means of an online questionnaire sent to museums identified via public association lists, and questions will focus on institutional practices in relation to school readiness and the needs of preschool dual language learners and perceived gaps in services. In the convening and virtual meet-ups, the project team, local community partners, project advisers, museum association leaders, and museum partners selected for their innovative work with linguistically diverse populations will discuss partners' programs, practices and frameworks; emergent project findings; and directions for further study. The exploratory study of COSI programs and practices will entail participant observation, document analysis, and interviews and focus group conversations with stakeholders, including parents, early childhood educators, COSI team members, community organization leaders. 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. Its funding includes 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. An AISL Pathways grant, such as this one, allows practitioners and researchers to undertake exploratory development work that has the potential to produce evidence, findings, and/or deliverables that will form the basis of anticipated further innovative, or potentially transformative, research and development work.
This project engages members of racially and economically diverse communities in identifying and carrying out environmental projects that are meaningful to their lives, and adapts technology known as NatureNet to assist them. NatureNet, which encompasses a cell phone app, a multi-user, touch-based tabletop display and a web-based community, was developed with prior NSF support. Core participants involved in programs of the Anacostia Watershed Society in Washington, D.C., and Maryland, and the Reedy Creek Nature Preserve in Charlotte, NC, will work with naturalists, educators, and technology specialists to ask scientific questions and form hypotheses related to urban waterway restoration and preservation of native species. They will then collect and analyze data using NatureNet, requesting changes to the technology to customize it as needed for their projects. Casual visitors to the nature centers will be able to interact with the environmental projects via the tabletop, and those who live farther away will be able to participate more peripherally via the online community. The research project, led by researchers from the University of Maryland, College Park, with collaborators from the University of North Carolina, Charlotte, and the University of Colorado, Boulder, will provide answers to two questions: 1) How do community-driven informal environmental learning projects impact participants, including their motivation to actively participate in science issues via technology and their disposition toward nature preserves and scientific inquiry? and 2) What are the key factors (e.g., demographic composition of participants, geographical location) that influence the development of community-driven environmental projects? Researchers will gather extensive qualitative and quantitative data to understand how community projects are selected and carried out, how participants approach technology use and adaptation, and how informal learning and engagement on STEM-related issues can be fostered over a period of several months and through iterative project cycles. Data will be collected through motivation questionnaires; focus groups; interviews; tabletop, mobile, and website interaction logs; field notes from participatory design and reflection sessions; and project journals kept by nature preserve staff. Through extensive research, iterative design, and evaluation efforts, researchers will develop an innovative model for community-driven environmental projects that will deepen informal science education by demonstrating how members of diverse communities connect environmental knowledge and scientific inquiry skills to the practices, values, and goals of their communities, and how technology can be used to facilitate such connections.
DATE:
-
TEAM MEMBERS:
Tom YehMary Lou MaherJennifer PreeceTamara CleggCarol Boston
The Boys and Girls Club Afterschool Outreach Program, designed by UC Irvine Science Educators in conjunction with Chemistry at the Space-Time Limit faculty, aimed to increase elementary students' interest, enthusiasm, and learning outcomes in STEM fields through the development of hands-on physical science science lessons. External evaluation results showed the program was successful in altering students' perceptions of scientists and supported their internalization of science as a potential career choice. Now in its third year, the program continues includes support from undergraduate student, graduate student, and faculty volunteerism.
LIGO's Science Education Center is in charge of Education and Public Outreach Component for the LIGO Livingston Observatory. The three prime efforts are: (1) Professional development for teachers utilizing lab facilities and cross-institute collaborations. (2) Outreach to students K-16 (targeting 5- 9th grade), with on-site field trips to the LIGO Lab and Science Education Center, as well as off-site visits & presentations. (3) Outreach to the general public and community groups with on-site tours and Science Education Center Experience, as well as off=site visits and presentations. LIGO's Science Education Center is located at the LIGO Observatory, and has an auditorium, a classroom and a 5000 square foot exhibit hall with interactive exhibits at its disposal to complete its mission. In addition LIGO-SEC staff serve to help press and documentary film makers complete their missions in telling the "LIGO story" and encouraging budding scientists.