The project will advance efforts by the American Association for the Advancement of Science and the Institute for Learning Innovation to bring together young adults from communities historically underrepresented in science, technology, engineering, and mathematics (STEM) to collaboratively conduct scientifically driven challenges embedded in a mobile learning tool based upon the AAAS Active Explorer platform. The project will be conducted at the Washington National Mall, San Francisco National Golden Gate Park, and the Boston Harbor Islands National Recreation Area, and will study how a mobile technology used in these settings can facilitate learner engagement in science content; how it can affect young adults' engagement in science-learning processes; and whether interest in learning science and technology has been furthered. 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, including pathways for broadening access to STEM learning experiences and advancing research STEM learning. Research questions will investigate science learning inequalities by addressing how place-based augmented reality games can connect young adults to scientific practices, including observing science phenomena, analyzing data, and communicating findings; how young adults develop science skills related to their science self-efficacy through participation in augmented reality science exploration; and how mobile technologies and gaming can serve as mediators that enable young adults to improve their science identity. In addition to engaging young adults in science activities at the National Parks and increasing their science skills, the project will provide valuable information to National Park staff and scientists to assist them in designing effective tools, resources and experiences to better engage young adults. Research teams will collect data in the form of digital ethnography, focus groups, activity reports, artifacts, and surveys. The project will document learning and engagement through mobile technology in three urban national parks that will involve 60 young adults at each location, and will create innovative measurement tools to monitor how informal settings can leverage the intersections of the arts and sciences to support student engagement and learning.
This ChangeMakers project builds on a 2016 National Academies report finding that scientific literacy can be understood at a community level as opposed to a traditional focus on the individual. This is important since scientific knowledge is often seen as abstract and distant from the daily concerns of average citizens. A community focus shifts the spotlight away from individual learning to collective learning facilitated by trusted cultural institutions serving as social assets. This work brings together scientific expertise and community organizations to advance operational science literacy--scientific ways of problem-solving--for community leaders and functional science literacy--information and skills people can use in their daily lives--among their service populations. This will be done by gathering and sharing knowledge and developing skills and abilities to contribute to the community's overall well-being.
The New England Aquarium (NeAq) and Aquarium of the Pacific (AoP) will apply a community engagement model involving active listening, documentation, alignment of concerns and goals, and co-development of shared solutions that serves the needs of all participants. As part of the Advancing Community Science Literacy (ACSL) project, multi-disciplinary teams from NeAq, AoP and their regional partners will participate in training on the model. They will apply that training to build and implement action plans to advance community-driven responses to local environmental issues. Teams will be assessed with respect to how they use tools from their shared training, along with peer support and coaching, to make progress in engaging diverse community stakeholders. Results of the evaluation will offer insights and recommendations for informal science learning centers to serve their communities more effectively as engagement facilitators and change agents to support science literacy development and action. By applying techniques developed for cultural institutions to communicate about climate science, and combining those with techniques developed for libraries and other organizations to help meet emergent community concerns, such as storm surges and coastal flooding, it is possible to redefine the role informal science learning centers can play as part of a community culture.
ACSL is funded by the Advancing Informal STEM Learning (AISL) program which supports projects that provide multiple pathways for broadening access to and engagement in STEM learning experiences, advances innovative research on and assessment of STEM learning in informal environments, and develops understandings of deeper learning by participants.
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.
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. In this exploratory Change Makers project, the Concord Consortium will develop, test, and evaluate a citizen science program that leverages innovative technology, such that youth engage directly with energy issues through scientific inquiry. The project will create the Infrared Street View, a citizen science program that aims to produce a thermal version of Google's Street View using an affordable infrared camera attached to a smartphone. The infrared camera serves as a high-throughput data acquisition instrument that collects thousands of temperature data points each time a picture is taken. Youth will collect massive geotagged thermal data that have considerable scientific and educational value for visualizing energy usage and improving energy efficiency at all levels. The Infrared Street View program will provide a Web-based platform for youth and anyone interested in energy efficiency to view and analyze the aggregated data to identify possible energy losses. By sharing their scientific findings with stakeholders, youth will make changes to the way energy is being used. The project will start with school, public, and commercial buildings in selected areas where performing thermal scan of the buildings and publishing their thermal images for educational and research purposes are permitted by school leaders, town officials, and property owners. In collaboration with high schools and out-of-school programs in Massachusetts, this project will conduct pilot-tests with approximately 200 students.
To contribute to advancing learning, the study will probe three research questions: 1) Under what circumstances can technology bridge out-of-school and classroom science learning and improve learning on both sides? 2) To what extent can unobtrusive assessment based on data mining support research and evaluation of student learning in out-of-school settings? and 3) To what extent can instructional intelligence built into the app used in the program help students learn in out-of-school programs and improve the quality of data they contribute to the citizen science project? Data sources for investigating these questions include students' interaction data with the app logged behind the scenes and the images they have taken, as well as results based on traditional assessments from a small number of participants. Throughout the project, staff will widely disseminate project products and findings through the Internet, science fairs, conferences, publications, and partner networks. An eight-member Advisory Board consisting of cleantech experts, science educators, and educational researchers will oversee and evaluate this project.
The widespread accessibility of live streaming video now makes it possible for viewers around the world to watch live events together, including unprecedented, 24/7 views of wildlife. In addition, online technologies such as live chatting and forums have opened new possibilities for people to collaborate from locations around the world. The innovation that the projects provide is bringing these opportunities together, enabling real-time research and discussion as participants observe and annotate live streaming footage; sharing questions and insights through live Q&A sessions; and explore data with interactive visualization tools. Scientists will support the community's research interests, in contrast with traditional models of citizen science in which communities support the work of scientists. This project will enable people from diverse backgrounds and perspectives to co-create scientific investigations, including participants who might not otherwise have access to nature. The evaluation research for this project will advance the understanding of practices that enable interconnected communities of people to participate in more phases of scientific discovery, and how participation affects their learning outcomes. 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 science, technology, engineering, and mathematics (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. As such, this project will advance a new genre of Public Participation in STEM Research (PPSR). It will also advance scientific exploration using live wildlife cams and establish a database for long-term research to understand how bird behavior and reproductive success are affected by environmental change. This project aims to deepen public involvement in science, building on knowledge and relevance for STEM learning by creating an online learning environment that expands on traditional crowdsourcing models of PPSR in which participants collect data to answer questions driven by scientists. In this project, participants are involved in co-created research investigations, including asking questions, deciding what data are needed, generating data, looking for patterns, making interpretations, reviewing results, and sharing findings. The goals are to 1) create a system that involves the public more deeply in scientific research; 2) develop participants' science skills and interests; 3) increase participants' understanding of birds and the environment; 4) generate new scientific knowledge about wildlife; and 5) advance the understanding of effective project design for co-created PPSR projects at a national scale. Through iterative design and evaluation, the project will advance the understanding of the conditions that foster online collaboration and establish design principles for supporting science and discovery in online learning environments. Through scaling and quasi-experimental studies, the evaluation research will advance the understanding of how learning outcomes may be similar or different for participants engaging in different ways, whether they observe the cams and read about the investigation, process data as contributors, provide some input as collaborators, or join in most or all of the scientific process as co-creators. Despite the popularity of live wildlife cams, with millions of people watching hundreds of cams around the world, little research has been conducted on the use of live cams for collaborative work in formal or informal science education. The infrastructure and open-source framework created for this project will expand the capacity for online communities of people from diverse career backgrounds and perspectives to collaborative on solving personally meaningful questions and contribute to new knowledge. Using this project as a prototype, cam operators from around the world could build networks of cams, enabling future studies with broader scope for comparative biological studies and discoveries. Additionally, it will serve as a model for use in classrooms or for online communities exploring other scientific fields using live-streaming content in collaborative research. By involving scientists and participants from across society as collaborators and co-creators, this project can help increase public engagement with science, technology, and environmental stewardship while advancing the understanding of the natural world and informing public decision-making.
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 will collaboratively design, test and study effective and efficient ways to develop embedded assessments (EAs) of citizen science (CS) volunteer scientific inquiry skills in order to better understand the impact of these CS experiences on volunteer scientific inquiry abilities. EAs are assessment activities that are integrated into the learning experience and allow learners to demonstrate their competencies in an unobtrusive way. The acquisition of scientific inquiry skills is an essential, even defining, characteristic of citizen science experiences that has a direct influence on data quality. Methods for assessing the direct impact of CS on volunteers' scientific inquiry skills are limited. The project will result in EA measures designed for use by diverse CS projects, strategies that CS projects can use to develop EA assessment tools, and research findings that document opportunities, supports and barriers of this innovative method across a range of CS contexts. Findings and initial resources will be shared with the broad array of stakeholders in CS through conferences, workshops, peer-reviewed publication, community websites and other relevant venues. The results of this work also have the potential to generalize to other informal science learning experiences that engage the public in science The project will address two research questions: (1) What processes are useful for developing broadly applicable EA methods or measures? and (2) What can we learn about gains in volunteers' scientific inquiry skills when citizen science organizations use EA? These will be addressed through design-based research focused on two streamlining strategies. For the reframing data validation strategy, six leaders from five established citizen science projects will conduct secondary analyses of their existing databases to uncover the skill gains of CS volunteers that are currently unexplored in their data. For the common measure strategy, ten CS projects will collaborate to create and test common EA measures of select identification-based skills. Data will be gathered through meeting notes, participant interviews and action plans, and volunteer skill gains to capture process and products of each strategy. Data will be analyzed using grounded theory, multiple process techniques, multilevel models, and repeated-measures analysis of variance. The design-based-research framework will significantly expand project impacts by jump-starting evaluation of the participating CS projects and by producing initial resources for two distinct EA strategies that have the potential to dramatically alter practice and impact citizen science efforts to ultimately enable more people to learn by contributing to the science endeavor. The project will directly equip the 15 participating citizen-science projects with authentic performance tools to assess the quality of their programing, which will expand their understanding of CS volunteer skills and help them better recruit and support their varied audiences (including rural, low-income and tribal communities).
Informal learning, and by extension, museums, are inherently emotional experiences, evoking feelings of awe, excitement, and curiosity. Oftentimes, museum professionals have prioritized traditionally positive emotions such as excitement and interest as being the most desirable and useful in supporting museum learning. However, prior research into naturally occurring emotions at museums found that some visitors who experienced negative emotions, such as confusion or frustration, at exhibits also reported deeper engagement and overall feelings of satisfaction (Rappolt-Schlichtmann et al., 2017). Based on these findings and similar results from formal education (D’Mello et al., 2014), this project team has worked to develop and refine a framework of strategies for creating exhibits that invoke and support visitors through the complex emotional state called productive struggle (PS) which is defined as a three-part emotional arc characterized by: 1) disequilibrium (experienced emotionally as emotions like confusion, frustration, surprise, or unease) that arises from encountering a challenging task, phenomenon, or idea, 2) persistence through the task which is supported by exhibit design scaffolds, and 3) an emotionally productive resolution tied to the source of disequilibrium or an overall sense of effortful achievement. In deliberately attending to and supporting a range of negative and positive emotions in museums, visitors can gain access to a wider variety of complex emotional experiences, including those critical to STEM learning, and have potential to broaden participation in STEM by supporting learners' diverse emotional needs and preferences.
This multidisciplinary project team consisting of researchers and exhibit professionals utilized a design-based research (DBR) process to develop, test, and refine a definition of museum-based productive struggle, and create a framework of design strategies that support PS. Three physical exhibits and a virtual exhibit were created during this multi-year project. Additionally, a summative research study was conducted with 105 youth ages 10-17 to explore: 1) whether visitors experienced the expected emotional arc of PS; 2) how exhibit design strategies supported PS; and 3) the extent of visitors’ learning and engagement at these PS exhibits.
The Northwest Passage Project (NPP) is a collaborative effort between the University of Rhode Island (URI), Inner Space Center (ISC), Graduate School of Oceanography (GSO), the film company David Clark Inc., and several other partners, including six Minority Serving Institutions (MSIs) and three informal science education institutions. The project centers on a research expedition into the Arctic's Northwest Passage, which will engage intergenerational cohorts of high school, undergraduate, and graduate students in hands-on research aboard the U.S. tall ship SSV Oliver Hazard Perry (OHP). During the expedition, a professional film crew will produce a two-hour documentary focused on the NPP's innovative model of interdisciplinary informal STEM (science, technology, engineering, and mathematics) learning and highlight the expedition's research, participants, and the sociological issues related to the changing Arctic environment. Because the Canadian Arctic is remote and costly to access, the project will maximize NSF's investment by giving broad audiences access to the science and excitement of the expedition through the documentary. In addition, this informal science learning opportunity will not only engage students with scientists in authentic research, but also train the students to deliver daily live broadcasts from sea to three well-established U.S. informal science education institutions: the Smithsonian National Museum of Natural History (NMNH), the Exploratorium, and the Alaska Sea Life Center (ASLC). The daily broadcasts will also reach the public in real time via the project's interactive website, providing the opportunity for people to post questions to the scientists and students onboard the ship. The NPP has great potential to benefit society by enhancing awareness of the changing Arctic's ecosystems and increasing science literacy. The hands-on research experiences will enhance the college readiness of the participating high school students and encourage the undergraduate students from the six partner MSIs to consider a graduate course of study and/or pursue STEM careers. The graduate students will also be more career-ready, as they gain public communication and leadership skills necessary for 21st century scientists. The Northwest Passage Project is designed to advance knowledge and understanding within the practice of informal science education, as well as in the field of Arctic science. The project goals include: increasing public awareness and understanding of the changing Arctic ecosystem; increase public understanding about Arctic research and the scientific process; increase the Informal Science Education (ISE) field's understanding of the public's learning process when engaged in live interactions with scientists and student 'science communicators'; increase the ISE field's understanding of the value of immersive science experiences and impact on students from underserved and underrepresented populations; and to build or extend the capacity of ISE institutions to make connections between polar scientists, students, journalists and the public. The NPP is creative in that it combines the engagement of students in field-based scientific research, live broadcasts from sea to ISE institutions, and the production of a full-scale documentary for public audiences. A potentially transformative component to the ISE activities involves six Minority Serving Institution partners--Florida International University; University of Illinois, Chicago; California State University, Channel Islands; Texas State University; Virginia Commonwealth University and City College of New York--whose students will have the opportunity for a life-changing experience that may tip the scale toward their interest in STEM careers. Each of these students will develop news stories, host screenings of the film at their respective campuses, and share their experiences with peers, providing visual role models for other underrepresented students, who may never have thought themselves capable of becoming a scientist or science communicator. An additional project goal is to enhance the capacity and infrastructure of the three ISE partner institutions so that they may receive live broadcasts from the Inner Space Center in the future, beyond the funding period of the project. People, Places & Design Research will conduct the project's front-end and formative evaluation; MEM & Associates will conduct the summative evaluation. Some of the key evaluation questions will be: * Have ISE and MSI institution public visitors, who view either the live broadcasts or the documentary film (or both), become more aware of the changing Arctic ecosystem and the importance of scientific research in the Arctic? * What is the relative impact of the live broadcasts compared to the finished documentary, and the strengths and weakness of the respective media in translating the on-board experience? * Does a real environmental and social context for scientific evidence stimulate audiences to become more interested in the role of science/STEM? * Have students gained leadership skills and the ability to communicate science to their peers? * Have students increased their motivation and interest in pursuing STEM careers? 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:
Gail ScowcroftDavid ClarkBrice LooseDwight Coleman
Science Club Summer Camp (SC2) is a practicum-based teacher professional development program for elementary school teachers, aligned to the recently released Next Generation Science Standards (NGSS). It seeks to address well-described gaps in the scientific training of elementary teachers that threaten the effective implementation of NGSS and interrupt development of early youth science skills. We offer that the best way to prepare a future STEM and biomedical workforce is to help improve NGSS-aligned instruction at the K-5 level.
SC2 uses an integrated approach to train Chicago Public School teachers and youth in the nature of science. An interdisciplinary team of scientists, master science teachers, NGSS experts, and youth development staff will collaborate to incorporate the NGSS Disciplinary Core Ideas (DCIs), Crosscutting Concepts, and science and engineering practices into both out-of-school time learning at a summer camp and academic year instruction. Program participants will also learn about NGSS connections to health and biomedicine through interactions with practicing scientists, visits to research labs, and inquiry into health phenomena.
Over the course of the program, we will train 64 teachers and more than 2000 youth in authentic science and health practices. A multi-faceted evaluation plan will assess the impact of our program on teacher beliefs, knowledge, and understanding of the NGSS, and the degree to which their training results in changes to their instructional practice. Additionally, we will help teachers design critical NGSS-aligned assessment tools as measures of student learning. These instruments will provide early evidence on the connections between NGSS-aligned instruction and deeper student learning.
In addition to addressing the acute need for NGSS-aligned teacher professional development strategies, and high quality summer learning opportunities for disadvantages youth, it is our expectation that this “dual use” approach will serve as a model for future teacher professional development programs that seek to bridge learning in formal and informal environments and strengthen academic-community partnerships.
Discover NASA is the Discovery Museum’s endeavor to engage students in grades K through 12 as well as members of the general public in innovative space science and STEM-focused learning through the implementation of two modules: upgrades to the Challenger Learning Center, and the creation of K through 12 amateur rocketry and spacecraft design programming. The programming will be piloted at the Discovery Museum and Planetarium, and at the Inter-district Discovery Magnet School and the Fairchild-Wheeler Multi-Magnet High School, with an additional strategic partnership with the University of Bridgeport, which will provide faculty mentors to high school seniors participating in the rocketry program. Through these two modules, the Discovery Museum and Planetarium aims to foster an early interest in STEM, increase public awareness about NASA, promote workforce development, and stimulate an interest in the future of human space exploration. Both modules emphasize design methodologies and integration of more advanced space science into the STEM curriculum currently offered by Discovery Museum to visitors and public schools. The Challenger Learning Center upgrades will enable the Museum to deliver simulated human exploration experiences related to exploration of the space environment in Low Earth Orbit and simulated human exploration of Moon, Mars, and beyond, which will increase public and student awareness about NASA and the future of human space exploration. The development of an amateur rocketry and spacecraft development incubator for education, the general public, and commercial space will stimulate the development of key STEM concepts.