The Arboretum at Flagstaff will complete an interactive outdoor exhibition to provide relevant and science-based climate change information to its northern Arizona audience, as well as visitors from throughout the state. Project activities include the addition of three kiosks to the climate change exhibition; developing standards-based curriculum guides for educators to assist them with both onsite and classroom instruction for students in grades 6-8; and the development of new webpage interfaces designed to make data files and curriculum guides readily available. The climate change center will engage students and general audiences in the STEM components of real-time climate change research, interpretation, and mitigation.
DATE:
-
TEAM MEMBERS:
Kristin Haskins
resourceresearchMuseum and Science Center Programs
The National Autonomous University of Mexico (UNAM) is one of the world's single largest employers of science communicators, with over 350,000 students and 40,000 staff. Its science communication activities include five museums (Universum, Museo de la Luz, the Geology Museum, Museo de la Medicina Mexicana and Musem of Geophysics), botanical gardens, as well as a wide range of cultural and outreach activities. It has several programmes for training professional science communicators. The science communication staff are spread across the campuses in Mexico City and four other cities, including
DATE:
TEAM MEMBERS:
Ana Claudia NepoteElaine Reynoso-Haynes
The Exploratorium, in collaboration with the city of San Francisco, the Tenderloin and Civic Center communities, and national museum-community partners, are excited to announce Middle Ground: Experiments in Urban Social Science (fka Street Smarts), a project to bring research on social psychology to public urban environments. Middle Ground combines recent work by the Exploratorium in social science exhibitry and urban learning spaces to develop a novel contribution to science learning in public spaces. The project will produce an outdoor learning installation in front of San Francisco City Hall that will serve the exceptionally diverse audiences that frequent the area. The installation will be populated with exhibits that engage this public in social observation and participatory experiences, promoting learning about the science of social polarization, social dilemmas, and social norms. The project will also produce an online "Guide to People Watching" for the general public, with additional materials to support professionals in the creation of social science learning experiences. The project will be supported by a community of practice of professionals engaged in educational place-making. Finally, Middle Ground will produce new research on how to design experiences that prompt structured, quasi-scientific social observation skills and foster empathy for the social experience of others.
Co-led by the University of Washington and Science Gallery Dublin, this project aims to drive and transform the next generation of broadening participation efforts targeting teen-aged youth from communities historically underrepresented in STEM fields. This project investigates how out-of-school time (OST) programs that integrate epistemic practices of the arts, sciences, computer science, and other disciplines, in the context of consequential activities (such as creating radio segments, designing museum exhibitions, or building online games), can more broadly appeal to and engage youth who do not already identify as STEM learners. STEM-related skills and capacities (such as computational thinking, design, data visualizations, and digital storytelling) are key to productive and creative participation in many future civic and workplace activities, and are driving the 30 fastest-growing occupations in the US. But many new jobs will entail a hybrid blend of skills, such as programming and design skills that many students who have disengaged with academic STEM pathways may already have and would be eager to develop further. There is not currently a strong foundation of research-based evidence to guide the design, implementation, and evaluation transdisciplinary programs - in which STEM skills are embedded as tools for meaningful participation - or how such approaches relate to long-term outcomes. Hypothesizing that OST programs which effectively engage youth during their high-leverage teenage years can significantly impact youths' longer-term STEM learning trajectories, this project will involve: 1) Five 3-year studies documenting learning in different technology-rich contexts: Making Afterschool, Media Production, Museum Exhibition Design, Digital Arts Programs, and Pop-Up/Street Science Programs; 2) A 4-year longitudinal study, involving 100 youth from the above programs; 3) The creation of a number of practical measurement tools that can be used to monitor how programs are leveraging the intersections of the arts and sciences to support student engagement and learning; and 4) A Professional Development program conducted at informal science education conferences in the EU and US to engage the informal STEM field with emerging findings. 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 to better understand, strengthen, and coordinate STEM engagement and learning. Within NSF, Science Learning+ is part of the Advancing Informal STEM Learning (AISL) program that seeks to enhance learning in informal environments.
Transdisciplinary, equity-oriented OST programs can provide supportive social contexts in which STEM concepts and practices are taken up as the means for meaningful participation in valued activities, building students' STEM skills in ways that can propel their future academic, career, and lifelong learning choices. This project will build the knowledge base about these emerging 21st century transdisciplinary approaches to broadening participation investigating: 1) The epistemic intersections across a range of disciplines (art, science, computation, design) that operate to broaden appeal and meaningful participation for underrepresented youth; 2) How transdisciplinary activities undertaken in the context of consequential learning (e.g., producing a radio segment, designing an exhibition for the general public) can illuminate the relevance of STEM to young people's lives, concerns, and futures; and 3) How participation in such programs can propel students' longer-term life choices and STEM learning trajectories. The project is a collaboration of the University of Washington, Science Gallery Dublin, Indiana University, Youth Radio in Oakland California, Guerilla Science in New York and London, and the London School of Economics.
Ciencia Pública is a National Science Foundation (NSF) -funded initiative in which the Exploratorium, in collaboration with the Boys and Girls Club of San Francisco (BGCSF), developed a parklet to engage Latino families in STEM content. The Parklet is located in San Francisco’s Mission District (the Mission), a historically Latino neighborhood. Buena Vista Horace Mann School (BVHM) is an additional project partner and hosts the Parklet on its site. Garibay Group conducted a summative evaluation of the project outcomes. This report discusses evaluation findings.
Mathematics is a notoriously disliked subject; there is so little stigma associated with being "bad at math", that educated adults openly describe themselves in this way. There are many reasons for math's unpopularity; chief among them is that school mathematics seldom offers opportunities to engage with the richness of this potentially fascinating subject. As a result, the mathematics education pipeline in the United States is more often a filter than a pump, siphoning students out rather than bringing them along. Children have libraries to help them fall in love with literature: where do they get a chance to fall in love with math? This project presents a unique opportunity to study children engaged with mathematics in an informal setting, the Minnesota State Fair, facilitated by mathematically knowledgeable volunteers. The Math On-a-Stick mathematical playground provides a place for children to engage with mathematics by exploring patters, asking quantitative questions, and investigating shape and space to mathematize their play. The project will observe and videotape this engagement to inform the design of mathematical learning environments in a variety of outside of school time settings, such as after school programs and summer camps, that are accessible to a wider range of the population. This project is co-funded by the EHR Core Research (ECR) and Advancing Informal STEM Learning (AISL) programs. The ECR program emphasizes fundamental STEM education research that generates foundational knowledge in three thematic areas: STEM learning and learning environments, broadening participation, and STEM workforce development. The AISL program seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
The project will investigate three research questions: (1) How does the design of various parts of the exhibit differently support rich mathematical interactions between children and mathematicians? (2) How do children engage different parts of the exhibit? How do differences in engagement relate to (a) exhibit design and (b) prior mathematical experience? (3) How do exhibit volunteers, mathematicians, and caregivers interact to support (or undermine) students' mathematical play? The project will use participant observation and videography to capture visitors' activities through the exhibit, analyzing them as qualitative case studies.
Youth environmental education (EE) programs often serve as gateway experiences in which diverse audiences engage in informal science learning. While there is evidence that these programs can have positive impacts on participants, little empirical research has been conducted to determine what makes one program more successful than another. To be able to conduct such research, this Exploratory Pathways study will (1) develop and statistically validate ways to measure meaningful outcomes for participants across a variety of programs and (2) test observational methods that will enable research that can determine which elements of program delivery most powerfully influence participant engagement and learning outcomes in different contexts. These efforts will include consultations with diverse subject matter experts from the National Park Service, nature centers, and academia; survey research with participants in afterschool and free-choice EE programs; and observations of EE programs designed to fine tune the measurement of program delivery elements and student engagement. Developing valid and reliable outcomes measures and observational protocols will enable a larger investigation that will specifically address the following research question: What program characteristics lead to the best learning outcomes for program participants in different contexts? This research will result in empirically tested guidelines that will enable educators to design and deliver more effective programs for a wide range of audiences in a wide range of contexts. 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 effort will refine methods necessary to undertake an unprecedented study (and future AISL Research in Service to Practice proposal) to examine the linkages between pedagogical approaches, participant engagement, and learning outcomes in informal STEM-focused youth EE programs. The larger study will involve systematically observing a large number of programs to assess the use of different approaches and to link those approaches to engagement and learning outcomes through both observation and survey research. In this current study the team will develop and refine crosscutting outcome measures to ensure validity, reliability, and sensitivity by drawing upon the literature and consultation with key stakeholders to develop suites of indicators for subsequent psychometric testing and revision. They will also refine observational techniques for assessing pedagogical approaches through extensive testing of inter-rater reliability. Finally, techniques for measuring participant engagement, incorporating both observational techniques and retrospective participant surveys will be refined. The work will be conducted by researchers at Clemson University and Virginia Tech, in partnership with the U.S. National Park Service, the North American Association for Environmental Education, and the American Association of Nature Center Administrators. This work represents the first step in a longer research process to determine the "best practices" most responsible for achieving outcomes in a wide range of contexts.
The purpose of the Lenses on the Sky project is to create diverse skywatching-related experiences for youth across Oregon with a special focus on underserved Hispanic, African American, Native American, and rural communities. The Oregon Museum of Science and Industry (OMSI) will create and implement the project in collaboration with Portland’s Rose City Astronomers amateur astronomy club, Rosa Parks Elementary School in Portland, the Libraries of Eastern Oregon (LEO), and ScienceWorks Hands-On Museum in southern Oregon. The goals of the project are for participants to 1) understand the “big idea” that “humans have used observational tools and techniques across culture and time to understand space phenomena”, 2) recognize the relevance, value, and scientific achievements of NASA missions, and 3) be inspired to learn more about topics related to space science, STEM careers, and NASA. Audiences will explore these topics through three main “lenses” or frames: a NASA lens, a tools lens, and a cultural lens. The project will result in 1) a small, permanent, bilingual (Spanish/English) exhibition in OMSI’s free, public spaces adjacent to its planetarium, 2) three observational astronomy events held in Portland, Southern Oregon, and Eastern Oregon, 3) hands-on activities conducted at partner museums/libraries and shared with other educational institutions, 4) an Educator's Guide including lesson plans aligned with Next Generation Science Standards (NGSS), and 5) over 150 email communications to hundreds of recipients featuring space news updates.
This Partnerships for Innovation: Building Innovation Capacity (PFI:BIC) project from the University of New Hampshire focuses on a "living bridge", which exemplifies the future of smart, sustainable, user-centered transportation infrastructure. Bridges deliver such a fundamental service to society that they are often taken for granted. Typically, bridges only stir the public's interest when they must unexpectedly be replaced at great cost, or, worse, fail. The Living Bridge project will create a self-diagnosing, self-reporting "smart bridge" powered by a local renewable energy source, tidal energy, by transforming the landmark Memorial Bridge--a vertical lift bridge over the tidal Piscataqua River, with pedestrian access connecting Portsmouth, New Hampshire to Kittery, Maine--into a living laboratory for researchers, engineers, scientists, and the community at large. The Living Bridge will engage innovators in sensor and renewable energy technology by creating an incubator platform on a working bridge, from which researchers can field test and evaluate the impact and effectiveness of emerging technologies. The Living Bridge will also serve as a community platform to educate citizens about innovations occurring at the site and in the region, and about how incorporating renewable energy into bridge design can lead to a sustainable transportation infrastructure with impact far beyond the region. Sustainable, smart bridges are key elements in developing a successful infrastructure system. To advance the state of smart service systems and clean energy conversion, this project team will design and deploy a structural and environmental monitoring system that provides information for bridge condition assessment, traffic management, and environmental stewardship; advances renewable energy technology application; and excites the general public about bridge innovations. This PFI:BIC project is enabled through partnerships between academic researchers with expertise in structural, mechanical and ocean engineering, sensing technology and social science; small businesses with expertise in instrumentation, data acquisition, tidal energy conversion; and state agencies with bridge design expertise. The Living Bridge technical areas are structural health monitoring, tidal energy conversion with fluid-structure interaction measurements, estuarine environmental monitoring, and outreach communication. Sensors will be used to calibrate a three-dimensional analytical structural finite element model of the bridge. The predicted structural response from this model will assess the measured structural response of the bridge as acceptable or not. Instruments installed on the turbine deployment platform will measure the spatio-temporal structure of the turbulent inflow and modified wake flow downstream of the turbine. Resulting data will include turbine performance and loads for use in fluid-structure interaction models. Deployed environmental sensors will measure estuarine water quality; wildlife deterrent sensors will deter fish from the turbine. Hydrophones and video cameras will be used before and during turbine deployment to monitor environmental changes due to turbine presence. Outreach efforts will make bridge data, history, and information about new systems accessible and understandable to the public and K-12 educators, facilitated by an information kiosk installed at the bridge. Public awareness will be assessed with survey methods used in the N.H. Granite State Poll. The lead institution is the University of New Hampshire (UNH) with its departments of Civil Engineering, Mechanical Engineering, and Sociology, and the Center for Ocean Engineering. Primary industrial partners are a large business, MacArtney Underwater Technology Group, Inc. (Houston, TX) and two small businesses Lite Enterprises, Inc. (Nashua, NH) and Eccosolutions, LLC (New Paltz, NY.) Broader context partners are New Hampshire Department of Transportation, NH Fish & Game Department, NH Port Authority, NH Coastal Program, City of Portsmouth (NH), Sustainable Portsmouth (nonprofit), Maine Department of Transportation; U.S. Coast Guard, Archer/Western (Canton, MA, large business), Parsons-Brinkerhoff (Manchester, NH, large business), UNH Tech Camp, UNH Infrastructure and Climate Network, UNH Leitzel Center for Mathematics, Science and Engineering Education, and Massachusetts Institute of Technology's Changing Places (a joint Architecture and Media Laboratory Consortium, in Cambridge, MA).
DATE:
-
TEAM MEMBERS:
Erin BellTat FuMartin WosnikKenneth BaldwinLawrence Hamilton
This project will bring STEM content knowledge to visitors to Cuyahoga Valley National Park via mobile device applications. Visitors will be able to use their mobile phones to access details about Park features (such as where they are in the park, what they are looking at, and where are related features), supporting just-in-time STEM learning. Cuyahoga Valley National Park receives around 2.5 million visitors every year and experiences multitudes of inquiries. Until this project, visitors were subjected to less than optimum signage for information and background about a given feature that may or may not be of interest to them. In this project, knowledge building information will be selected by the visitors and delivered to them with convenience and speed. The data base supporting this effort will provide the visitor with identification and the history of park features as well as more in depth knowledge building information while they are in the park and after the leave, providing a more holistic experience than is currently available. The investigators will build the system in parts, testing the feasibility at each stage and evaluating affective and cognitive outcomes of each portion. Research questions that will be addressed in the course of this project include: (1) What outcomes associated with use of this GPS-base system could inform future development and implementation? and (2) What contributions do these GPS-based mobile learning applications have on informal science learning as understood within the Six Strands of Informal Science Learning? It is expected knowledge generated in this project will stimulate additional programing for increasing efficacy and use in other widely ranging venues. If successful, it is easy to imagine how this STEM knowledge-building application could be extended for use in other venues across the country.
DATE:
-
TEAM MEMBERS:
Richard FerdigRuoming JinPatrick LorchAnnette Kratcoski
NNOCCI is a collaborative effort led by the New England Aquarium with the Association for Zoos and Aquariums, the FrameWorks Institute, the Woods Hole Oceanographic Institution, the National Aquarium in Baltimore, Monterey Bay Aquarium, the New Knowledge Organization in partnership with Penn State University and the Ohio's Center for Science and Industry. With support from the National Science Foundation Climate Change Education Partnership program, NNOCCI's goal is to establish a national network of professionals who are skilled in communicating climate science to the American public.