Arizona State University will develop new features for its SciStarter website that will expand participation in citizen science and provide rich data for researching the nature of and impacts of citizen science participation. SciStarter is a popular online citizen science hotspot featuring more than 850 searchable citizen science projects, added by researchers and project owners, and serving over 35,000 citizen scientists. The project will develop new features to add to the current website that will enable participants to explore hundreds of citizen science projects and select projects of most interest to them, track their participation, and connect to people and projects they are interested in. The expanded website will also provide rich data that will help citizen science projects evaluate their programs and that will rich data for researchers to investigate the nature of citizen science participation. The website will be widely accessible to the public through partnerships with Discover Magazine, the Citizen Science Association, and other partners. The SciStarter website will develop additional features to expand citizen science participation and to research the nature and impacts of participation. The expanded features will include: (1) an integrated registration for participants to more easily engage in one or multiple citizen science projects, across platforms; (2) GIS implementation for project owners to define the geographic boundaries of projects so participants can find them more easily; and (3) an online, personal dashboard for participants to track their projects, participation, and contributions to science, share and save data, record interests in projects, create profiles, and find people and projects of interest to them. These new features will create opportunities for future research concerning: (1) understanding how citizen scientists use the site and how it responds to their needs and interests, and (2) understanding why, how, and with what impacts citizen scientists participate in research. The project will support the overall strategy of the Advancing Informal STEM Learning Program to enhance learning in informal environments through the funding of innovative resources through a variety of settings. 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 Advancing Informal STEM Learning (AISL) program funds innovative projects in a variety of informal settings. The iSWOOP project aims to equip National Park Service interpretive rangers with visualizations and interactive approaches for communicating science in natural learning spaces. An advantage to locating STEM learning in national parks is that they serve as America’s outdoor laboratories, hosting thousands of research studies annually. Dynamic changes in the landscape, wildlife, and interspecies interactions offer countless avenues for inquiry. The project will build collaborations between park-based scientists, whose work frequently happens out of the public eye, and interpreters, who interact with millions of visitors annually. Based on pilot studies done at Carlsbad Caverns National Park, the researchers have extended this work to four more national park units, each with its own natural resources and research. Partners in this endeavor include Winston-Salem State University, Institute for Learning Innovation, and TERC. This project's goal is to establish a model for how national parks can be resources for science education and learning.
iSWOOP works by providing interpretive rangers with professional development. iSWOOP coordinates 1) opportunities for interpreters and scientists to work together in a classroom setting and in the field; 2) creates compelling visualizations, which can function as a jumping off point for conversations about the methods and relevance of park-based research; 3) ongoing opportunities for interpretive rangers to reflect on interactions with visitors and to experiment with questions that spark visitors’ curiosity in the moment and interest long-term.
The main goal of this proposed effort is to translate park-based research endeavors and results from the scientists to the park visitors in ways that make the process enjoyable, informative, and thought-provoking. Evaluation elements will be included every step in this process in order to not only determine if learning has occurred but also how effectively the science has been translated.
Research shows that participation and interest in science starts to drop as youth enter high school. This is also the point when science becomes more complex and there is increased need for content knowledge, mathematics capability, and computer or computational knowledge. Evidence suggests that youth who participate in original scientific research are more likely to enter and maintain a career in science as compared to students who do not have these experiences. We know young people get excited by space science. This project (STEM-ID) is informed by previous work in which high school students were introduced to scientific research and contributed to the search for pulsars. Students were able to develop the required science and math knowledge and computer skills that enabled them to successfully participate. STEM-ID builds on this previous work with two primary goals: the replication of the local program into a distributed program model and an investigation of the degree to which authentic research experiences build strong science identities and research self-efficacies. More specifically the project will support (a) significant geographic expansion to institutions situated in communities with diverse populations allowing substantial inclusion of under-served groups, (b) an online learning and discovery environment that will support the participation of youth throughout the country via online activities, and (c) opportunities for deeper participation in research and advancement within the research community. This project is funded by the Advancing Informal STEM Learning (AISL) program which seeks to advance new approaches to, and understanding of, the design and development of STEM learning in informal environments. STEM-ID will serve 2000 high school youth and 200 high school teachers in afterschool clubs with support from 30 undergraduate and graduate students and 10 college/university faculty. Exploratory educational research will determine the broad mechanisms by which online activities and in-person and online peer-mentor teacher-scientist interactions influence science identity, self-efficacy, motivation, and career intentions, as well as a focused understanding of the mechanisms that influence patterns of participation. Youth will be monitored longitudinally through the first two years of college to provide an understanding of the long-term effects of out-of-class science enrichment programs on STEM career decisions. These studies will build an understanding of the best practices for enhancing STEM persistence in college through engagement in authentic STEM programs before youth get to college. In addition to the benefits of the education research, this program may lead participants to discover dozens of new pulsars. These pulsars will be used for fundamental advances such as for testing of general relativity, constraining neutron star masses, or detecting gravitational waves. The resulting survey will also be sensitive to transient signals such as sporadic pulsars and extragalactic bursts. This project provides a potential model for youth from geographical disparate places to participate in authentic research experiences. For providers, it will offer a model for program delivery with lower costs. Findings will support greater understanding of the mechanisms for participation in STEM. This work is being led by West Virginia University and the National Radio Astronomy Observatory. Participating sites include California Institute of Technology, Cornell University, El Paso Community College, Howard University, Montana State University, Penn State University, Texas Tech University, University of Vermont, University of Washington, and Vanderbilt University.
The goal of "Communicating STEM -- Applying the Science of Science Communication to Natural History Media Products in Development/Production" is to bring standard methodology for media product development/production into better alignment with evidence-based best practices for science communication. Presentations in the professional development science strand at the Jackson Hole Wildlife Film Festival (JHWFF) conference will be curated to demonstrate how adhering to research-based communication strategies has been proven to increase knowledge retention in a lay audience and decrease instances of audience bias. The strand will present emerging methods for assessing media impact beyond simply the number of viewers, as well as in depth case studies examining evidence for measurable benefits to adopting science communication strategies. By establishing an international cohort of interdisciplinary professionals, and by recruiting ongoing engagement through dissemination of project deliverables through partner organizations and university programs, JHWFF will increase opportunities for cross-industry collaboration and provide media producers, STEM professionals and science communication experts with the resources and network necessary for informed, effective public outreach through natural history and science media products. This conference strand is funded by the Advancing Informal STEM Learning 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. Jackson Hole Wildlife Film Festival (JHWFF) is a premier international industry conference for natural history media professionals. This project will establish a cross-industry, interdisciplinary professional development science strand in the upcoming 2015 JHWFF conference. The goal is to advance interdisciplinary collaborations between STEM professionals, science communication experts, media producers, and students/early career professionals. The strand will explore examples of successful science/media collaborations, and increase discourse on best practices for public engagement at the intersection of STEM research, empirically-proven communication methods, and media content for diverse audiences. The project is divided into two phases: Phase I involves the work at the conference; Phase II will provide free online access to edited videos of program sessions made broadly available through partner organizations and institutions, and promoted via social networking, cohort groups, and online blogs. The collaborating organizations (American Association for the Advancement of Science, LifeOnTERRA, and Participant Media), complemented by a broad group of expert advisors, will extend the capacity of the project, facilitate access to stakeholders, and recruit broader participation in both phases of the project. Dr. Louis Nadelson, Director of the Center for the School of the Future at Utah State University, will conduct external evaluation.
On April 25, 2015, a devastating M=7.8 earthquake occurred approximately 80 km to the northwest of the Nepalese capital of Kathmandu. At the location of this earthquake the India plate is converging with Eurasia driving the uplift of the Himalayan mountain range. This RAPID award will enable the expansion and updating of a planned television documentary (The Himalaya Connection) about earth science research in Nepal, Bangladesh, India, and Mongolia from a half-hour to a one-hour show, in order to incorporate the Nepal earthquake and the lessons learned for making the region safer from natural hazards. The earthquakes occurrence provides a rare educational opportunity to increase the impact of new scientific information about earth processes while the disaster remains fresh in the global public consciousness. Using footage of scientists doing field research and related landscape, cultural scenes, and interviews filmed over the past several years under several NSF-funded projects, the producers will build on the opening created by the earthquake and its aftermath to incorporate lessons learned from this event into a deeper understanding of the forces at work and their wider impact on the region, and the scientific research behind this knowledge. Because The Himalaya Connection was already in post production, the film can be revised and completed fairly quickly and distributed soon enough to take advantage of the recent information about Nepal that has been so widespread in the global media. The documentary's primary audience is television viewers watching PBS in North America; the film will also be distributed for international broadcast. The filmmakers are Doug Prose and Diane LaMacchia of Earth Images Foundation, award-winning producers of earth science television documentaries. Activities under this RAPID project will involve post-production, mastering, and distribution of the documentary.
A recent report by the Association for Computing Machinery estimates that by decade's end, half of all STEM jobs in the United States will be in computing. Yet, the participation of women and underrepresented groups in post-secondary computer science programs remains discouragingly and persistently low. One of the most important findings from research in computer science education is the degree to which informal experiences with computers (at many ages and in many settings) shape young people's trajectories through high school and into undergraduate degree programs. Just as early language and mathematics literacy begins at home and is reinforced throughout childhood through a variety of experiences both in school and out, for reasons of diversity and competency, formal experiences with computational literacy alone are insufficient for developing the next generation of scientists, engineers, and citizens. Thus, this CAREER program of research seeks to contribute to a conceptual and design framework to rethink computational literacy in informal environments in an effort to engage a broad and diverse audience. It builds on the concept of cultural forms to understand existing computational literacy practices across a variety of learning settings and to contribute innovative technology designs. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds new approaches to and evidence-based understanding of the design and development of STEM learning in these settings. This CAREER program of research seeks to understand the role of cultural forms in informal computational learning experiences and to develop a theoretically grounded approach for designing such experiences for youth. This work starts from the premise that new forms of computational literacy will be born from existing cultural forms of literacy and numeracy (i.e., for mathematical literacy there are forms like counting songs -- "10 little ducks went out to play"). Many of these forms play out in homes between parents and children, in schools between teachers and students, and in all sorts of other place between friends and siblings. This program of study is a three-phased design and development effort focused on key research questions that include understanding (1) how cultural forms can help shape audience experiences in informal learning environments; (2) how different cultural forms interact with youth's identity-related needs and motivations; and (3) how new types of computational literacy experiences based on these forms can be created. Each phase includes inductive research that attempts to understand computational literacy as it exists in the world and a design phase guided by concrete learning objectives that address specific aspects of computational literacy. Data collection strategies will include naturalist observation, semi-structured, and in-depth interviews, and learning assessments; outcome measures will center on voluntary engagement, motivation, and persistence around the learning experiences. The contexts for research and design will be museums, homes, and afterschool programs. This research builds on a decade of experience by the PI in designing and studying computational literacy experiences across a range of learning settings including museums, homes, out-of-school programs, and classrooms. Engaging a broad and diverse audience in the future of STEM computing fields is an urgent priority of the US education system, both in schools and beyond. This project would complement substantial existing efforts to promote in-school computational literacy and, if successful, help bring about a more representative, computationally empowered citizenry. The integrated education plan supports the training and mentoring of graduate and undergraduate students in emerging research methods at the intersection of the learning sciences, computer science, and human-computer interaction. This work will also develop publically available learning experiences potentially impacting thousands of youth. These experiences will be available in museums, on the Web, and through App stores.
Despite strong efforts by many people and institutions and a deep, ongoing commitment from the National Science Foundation, progress remains uneven and slower than desired with respect to broadening participation of people from all parts of society in the science, technology, engineering, and mathematics (STEM) fields. The broadening participation challenge will become even more urgent with increasing demographic and socioeconomic changes underway in our nation. Through this conference and workshop grant, the Association of Science-Technology Centers (ASTC) will convene a group of diverse thought leaders from across higher education, profit, non-profit, K-12 and informal STEM education sectors for one day of brainstorming and prioritizing possible ideas, strategies, and actions that could be aggressively pursued by broadening participation initiatives. The findings of this workshop could support ongoing, field-wide discussions about the next generation of projects and efforts to address issues of underrepresentation in STEM. This workshop will build upon a foundation of existing NSF programs and funded projects and will draw upon ongoing efforts by ASTC's Center for Advancement of Informal Science Education (CAISE) to address broadening participation challenges in informal STEM learning environments. 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 Inclusion Across the Nation of Communities of Learners that Have Been Underrepresented for Diversity in Engineering and Science (INCLUDES) Leadership Workshop will engage up to 55 local and non-local participants from the higher education, profit, non-profit, K-12 and informal STEM education sectors that have been selected for their extensive but varied experiences with efforts to broaden participation in STEM. Before the workshop, participants will prepare for the plenary talks, panel presentations, and breakout session discussions by reading selected literature about effectively scaling innovations, collective impact strategies, catalytic innovations, and other related theory. Specific goals of this one-day workshop are 1) to consider potential scalable high-impact innovations in STEM education to assure success for all people across the nation; and 2) to generate ideas, strategies, and actions that could substantially alter the current landscape and potentially achieve a transformative change for inclusion. ASTC proposes to disseminate the workshop findings to worksop participants, the broader communities to which participants belong, and even the National Science Foundation. A workshop synthesis report and other content generated at the workshop (speaker slides, presentation video, graphic documentation to name a few) will reside at ASTC's informalscience.org website. ASTC proposes an extensive communications media strategy that will draw stakeholder attention to these resources and support field-wide discussion and action around broadening participation.
This virtual conference proposal would bring together NSF researchers and their media partners who worked collaboratively on previous NSF projects involved with communicating research to public audiences (the now archived CRPA program). The goal of the conference to is examine successful practices and lessons learned and aggregate the findings in a manner that can productively inform and support current and future efforts of this kind. The key objectives of the work will be to identify approaches that broaden reach, increase the effectiveness of researcher/outreach organizational partnerships, and make recommendations for amplifying the strategic impact of these projects. Prior to the conference the PI will conduct a multiphase process of document review, online interviews, and questionnaires. Two virtual workshops will be conducted with a subset of previous grantees and their media partners noted for effective collaboration and outcomes. The first workshop will have participants sharing findings on project strengths and areas needing improvement based on past experience. They will identify possible generic tools and a framework that could be shared across projects. The second workshop will focus on the identified successful strategies might be implemented more widely. The broader impacts of this multi-component conference will help future grantees better understand, expand, and work more strategically with their outreach partners.
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.
Advances in genomics are rapidly increasing our understanding of not only the human body, disease and health-related issues but how humans and other species interact and respond to changing environments. Genomics represents a scientific frontier that connects with individuals and families at the most personal level, with the potential to shape the future of human healthcare. However, advances in genomics and their implications for personalized medicine are far out-pacing public awareness and knowledge. The Connecticut Science Center and the University of Connecticut partnered under a National Science Foundation funded collaboration between Dr. Rachel O'Neill, UCONN, and Dr. Hank Gruner, Connecticut Science Center, and the National Center for Science & Civic Engagement to engage the public in developing a conceptual understanding of genomics.
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Connecticut Science CenterRachel O'NeillHank Gruner
The overall goal of the current proposal is to adapt the interdisciplinary research-based curriculum created at the School for Science and Math at Vanderbilt (SSMV) for implementation of a four-year program in three Metropolitan Nashville Public School (MNPS) high schools. The specific aims of the proposal are to adapt the on-campus (at Vanderbilt) model for implementation in three public high schools with different academic profiles (SSM Academies); to define the variables and features required to sustain the program and to replicate the model in any high school setting; and to define a strategy for disseminating the model to additional schools. Students entering 9th grade in a school in which an SSM Academy has been implemented will be encouraged to apply. Those who are accepted into the program will spend three hours every other day in two courses based on the adapted curriculum. As with the SSMV, rising seniors will have opportunities to enter Vanderbilt laboratories for summer research internships. Teachers from the high school will work with Center for Science Outreach scientists to adapt the SSMV curriculum for implementation. Ongoing, year-long teacher professional development will be conducted to ensure that the curriculum is dynamic and the teachers are well-prepared to engage and guide the students in the curriculum. The anticipated outcomes include enhanced student achievement as measured by GPA, and scores on ACT science reasoning and end of course tests; increased SSM student interest in careers in science; increased district-wide enrollment in SSM programs; increased graduation rates and postsecondary education enrollment by SSM students; development of unique curricular science units that can be adapted for a novel four-year interdisciplinary research- based curriculum; development of a sustainable model built on effective features of each SSM that can be exported to other high schools within and outside Nashville; enhanced community and family involvement in the SSM programs and school community in general; a strengthened partnership between Vanderbilt and MNPS that will serve as a national model of a successful university-K-12 collaboration to enhance science teaching and learning.
Through "Addressing the Science of Really Gross Things: Engaging Young Learners in Biomedical Science Through a Fulldome Planetarium Show and Supporting Curricula," Morehead Planetarium and Science Center at the University of North Carolina at Chapel Hill, in close collaboration with NIH-funded researchers at the UNC and a leading children's book author, will develop an informal science education media project and a suite of hands-on, inquiry-based curricula based on the media project for use in science centers, museums and schools. This project will build the pipeline of future researchers and create awareness of NIH-funded research by generating interest and excitement among children age 9-13 in the health sciences and related careers and building their science content knowledge. To achieve the objective, the investigators will develop a fulldome planetarium show; create correlating curricula for summer camps, afterschool programs, scout programs, science center field trips, science clubs and schools; and produce a DVD highlighting careers in the health sciences. In addition, the project will use several methods to target populations traditionally underrepresented in the biomedical fields, including featuring professionals from underrepresented populations in the multimedia and curricula products, making outreach visits to counties with large populations traditionally underrepresented in health science research careers, and producing a Spanish-language version of the products. The use of a known brand, "Grossology," is an innovative way to connect to children in the target age range and to encourage the informal science education community to embrace health-science content in their fulldome theaters. In addition, the project's hub-and-spoke approach further encourages adoption of this programming by providing informal science venues with both an engaging experience (hub) and the supporting curricula (the spokes) that is necessary to extend the show's potential for having significant educational impact. A strong project team maximizes the project's likelihood for success. The team includes fulldome producers and educators from Morehead and NIH-funded researchers with expertise in appropriate science content areas. In addition, the investigators have created a network of consultants, advisory board members and evaluators that will create feedback loops designed to ensure high-quality, scientifically-accurate, educationally-effective products. The investigators will use a combination of free and revenue-based dissemination strategies to ensure that the products of this award are broadly distributed. These strategies hold significant promise for creating broad use of this project's products in the nation's science centers, museums and classrooms.