Focusing on climate change and its impact on coastal zones and marine life, Visualizing Change will build educator capacity in the aquarium community and informal science education field. Building on NOAA datasets and visualizations, we will provide interpreters with strategic framing communication tools and training using the best available social and cognitive research so that they can become effective climate change educators. Objectives are to (1) Develop and test four exemplary interpretive "visual narratives" that integrate research-based strategic communication with NOAA data visualization resources; (2) Test the application of the visual narratives in a variety of geographic regions, institution types (aquarium, science center, etc.), and using multiple technology platforms (Science on a Sphere, Magic Planet portable globe display, iPad/tablets, and video walls); (3) Build a professional development program for climate change interpretation with data visualization; and (4) Leverage existing networks for dissemination and peer support.
This CRPA project will develop a game for mobile devices called the "RapidGuppy". It provides users (students 12-21 years of age) with an interesting and fun way to learn details about biological adaptation and genetic change. The game teaches users about the environmental factors that lead to adaptation. More than 30 years of research on the Trinidadian Guppy that "rapidly" evolves (over 3-5 years) is the basis for the game. The research, databases, and mini-documentaries that support the "RapidGuppy" game are linked to allow users to easily delve deeper into these materials. An extensive social media campaign will be used to market the game and the public facing website. Partners in this endeavor include: University of California-Riverside, Habitat Seven, Magmic Inc., and Edu, Inc. In this project, the mobile device game will be backed by a sophisticated website that contains detailed research results from the field and mini-documentaries showing real fish and the actual research processes as well as researchers and scientists to promote role model development. Interested individuals may also directly access the videos and research results via the website. The target audiences are youth who are prone to play electronic games and the general public. The comprehensive evaluation plan will assess the learning outcomes resulting from the mini-documentaries, in-game content, and website, as well as the playability of the game and website functionality. Impacts resulting from the social media campaign and outreach to underserved audiences will also be measured. Because of the major social media campaign, this project may increase the level of interest in the science of evolution and genetic change, and raise awareness of STEM careers. If the user groups become excited about the game and the inherent messages, it is anticipated that the public will gain a better understanding of the factors responsible for genetic change.
The University of California, Davis Tahoe Environmental Research Center (TERC), UC Davis W.M. Keck Center for Active Visualization in the Earth Sciences (KeckCAVES), ECHO Lake Aquarium and Science Center (ECHO), UC Berkeley Lawrence Hall of Science (LHS), and the Institute for Learning Innovation (ILI) will study how 3-D visualizations can most effectively be used to improve general public understanding of freshwater lake ecosystems and Earth science processes through the use of immersive three-dimensional (3-D) visualizations of lake and watershed processes, supplemented by tabletop science activity stations. Two iconic lakes will be the focus of this study: Lake Tahoe in California and Nevada, and Lake Champlain in Vermont and New York, with products readily transferable to other freshwater systems and education venues. The PI will aggregate and share knowledge about how to effectively utilize 3-D technologies and scientific data to support learning from immersive 3-D visualizations, and how other hands-on materials can be combined to most effectively support visitor learning about physical, biological and geochemical processes and systems. The project will be structured to iteratively test, design, and implement 3-D visualizations in both concurrent and staggered development. The public will be engaged in the science behind water quality and ecosystem health; lake formation; lake foodwebs; weather and climate; and the role and impact of people on the ecosystem. A suite of publicly available learning resources will be designed and developed on freshwater ecosystems, including immersive 3-D visualizations; portable science stations with multimedia; a facilitator's guide for docent training; and a Developer's Manual to allow future informal science education venues. Project partners are organized into five teams: 1) Content Preparation and Review: prepare and author content including writing of storyboards, narratives, and activities; 2) 3-D Scientific Visualizations: create visualization products using spatial data; 3) Science Station: plan, design, and produce hands-on materials; 4) Website and Multimedia: produce a dissemination strategy for professional and public audiences; 4) Evaluation: conduct front-end, formative, and summative evaluation of both the 3-D visualizations and science activity stations. The summative evaluation will utilize a mixed methods approach, using both qualitative and quantitative methods, and will include focus groups, semi-structured interviews, web surveys, and in-depth interviews. Leveraging 3-D tools, high-quality visual displays, hands-on activities, and multimedia resources, university-based scientists will work collaboratively with informal science education professionals to extend the project's reach and impact to an audience of 400,000 visitors, including families, youth, school field trip groups, and tourists. The project will implement, evaluate, and disseminate knowledge of how 3-D visualizations and technologies can be designed and configured to effectively support visitor engagement and learning about physical, biological and geochemical processes and systems, and will evaluate how these technologies can be transferred more broadly to other informal science venues and schools for future career and workforce development in these critical STEM areas.
In 2009, NSF funded development of Model My Watershed (MMW), a place-based, watershed cyber-modeling tool for middle and high school students and teachers. The online learning tool encourages students to investigate their neighborhoods and use scientific reasoning with real-world decision-making models similar to those used by STEM professionals to simulate systems and analyze processes. The project also sought to increase youth interest in possible opportunities in the STEM workforce and to aid in development of knowledge about earth science. This summary represents the first of a two-phase
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TEAM MEMBERS:
Stroud Water Research CenterJohn Fraser
The Children’s Museum developed From the Blue Planet to the Red Planet: Exploring Planetary Science to provide opportunities for students in grades 4 through 8, teachers, and families to learn about Mars exploration. The Museum partnered with the Connecticut Center for Advanced Technology (CCAT) on four teacher professional development modules related to aspects of planetary science: soil and plant study, air pressure, robotic exploration, and the comparison of Mars and Earth. Teachers who attended free workshops could bring students to the Museum for classroom and planetarium experiences. The Museum received support from Central Connecticut State University and technical advice from Phoenix Project scientists at JPL. The Museum created a timeline of Mars exploration history with video clips of milestones and an accompanying quiz kiosk. CCAT created virtual Mars drive-through experiences with which visitors could explore the planet. The Travelers ScienceDome Planetarium staff wrote, directed, and animated a full-dome planetarium program about the future study of Mars that was finished in December 2012. For over two years the Museum has sponsored free, monthly Mars Madness programs during which the general public can visit the exhibit, see a Mars-related planetarium program, and test out some of the hands-on activities developed for the school groups. The Museum hoped to reach a diverse audience, especially, those people who might otherwise not afford admission. We have produced four teacher professional development guides with hands-on activities, an exhibit for our facility, a dedicated website, and a planetarium program.
SciGirls CONNECT is a broad national outreach effort to encourage educators, both formal and informal, to adopt new, research-based strategies to engage girls in STEM. SciGirls (pbskids.org/scigirls) is an Emmy award-winning television program and outreach program that draws on cutting-edge research about what engages girls in science, technology, engineering and math (STEM) learning and careers. The PBS television show, kids' website, and educational outreach program have reached over 14 million girls, educators, and families, making it the most widely accessed girls' STEM program available nationally. SciGirls' videos, interactive website and hands-on activities work together to address a singular but powerful goal: to inspire, enable, and maximize STEM learning and participation for all girls, with an eye toward future STEM careers. The goal of SciGirls is to change how millions of girls think about STEM. SciGirls CONNECT (scigirlsconnect.org) includes 60 partner organizations located in schools, museums, community organizations and universities who host SciGirls clubs, camps and afterschool programs for girls. This number is intended grow to over 100 by the end of the project in 2016. SciGirls CONNECT provides mini-grants, leader training and educational resources to partner organizations. Each partner training session involves educators from a score of regional educational institutions. To date, over 700 educators have received training from over 250 affiliated organizations. The SciGirls CONNECT network is a supportive community of dedicated educators who provide the spark, the excitement and the promise of a new generation of women in STEM careers. Through our partner, the National Girls Collaborative Project, we have networked educational organizations hosting SciGirls programs with dozens of female role models from a variety of STEM fields. The SciGirls CONNECT website hosts monthly webinars, a quarterly newsletter, gender equity resources, SciGirls videos and hands-on activities. SciGirls also promotes the television, website and outreach program to thousands of elementary and middle school girls and their teachers both locally and nationally at various events.
The authors provide an analysis of pairs of children interacting with a multi-touch tabletop exhibit designed to help museum visitors learn about evolution and the tree of life. The exhibit’s aim is to inspire visitors with a sense of wonder at life’s diversity while providing insight into key evolutionary concepts such as common descent. The authors find that children negotiate their interaction with the exhibit in a variety of ways including reactive, articulated, and contemplated exploration. These strategies in turn influence the ways in which children make meaning through their
A research study was conducted to help inform UC Davis's Tahoe Environmental Research Center (TERC) about the greater Lake Tahoe area community's perceived value of the center and two 3D visualizations included as part of their guided tour of the center. Research questions focused on how various local groups perceived the center, how TERC can better engage locals and tourists alike, the potential for the current 3D visualizations (Lake Tahoe, Earthquakes) for impacting attitudes and behaviors about the Lake and how the Lake Tahoe 3D visualization impacted middle school students during a school
Video games have been heralded as models of technology-enhanced learning environments as they exemplify many of the ideas emerging from contemporary learning sciences research. In particular, such games promote learning through goal-directed action in simulated environments, through producing as well as consuming information, embedded assessments, and through participation in self-organizing learning systems. Research suggests that participation in such environments involves many forms of scientific thinking and may lead to increased civic engagement, although to date, there are few examples of game-based learning environments that capitalize on these affordances. This project will investigate the potential of online role playing games for scientific literacy through the iterative design and research of Saving Lake Wingra, an online role playing game around a controversial development project in an urban area. Saving Lake Wingra positions players as ecologists, department of natural resources officials, or journalists investigating a rash of health problems at a local lake, and then creating and debating solutions. Players will solve challenges within an interactive, simulated lake ecosystem as they attempt to save the lake, working for one of several constituencies. This design-based research project will span the full life cycle of a project, from case studies of learning in small, constrained settings to controlled experimental studies of games implemented across classrooms. In addition to asking if participation in scientific role-playing games can produce robust conceptual understandings, it will also examine if role playing games might serve as assessment tools for comprehending scientific texts, assessing conceptual understandings within scientific domains, and designing innovative solutions to environmental problems that draw upon scientific understandings. The education plan includes the production of game-based media that can be used to support a variety of research studies, an online professional development community of educators using games for learning, support for graduate students trained in game theory, the learning sciences, and new forms of assessment, and new courses in game-based learning and assessment.
This project will develop a prototype intelligent cyberlearning platform for middle school audiences at a museum location to test and evaluate the use of virtual learning technologies. The content for this test is focused on sustainability issues that enable students to develop an age-appropriate understanding of the relationships between specific conservation decisions, energy use, human health, and population growth within Earth's ecosystem. The prototype cyberlearning system will demonstrate how users can learn about science topics by interacting with a display of environmental factors that enable them to explore the impact of social, economic, and technological forces that may change one existing state and condition to another. The system will enable users to understand the interrelationships of those elements by enabling them to change conditions and then observing the effect of the changes they make on the conditions presented in the initial model. The prototype intelligent cyberlearning system will provide a unique integration of a sophisticated agent-based modeling simulation of environmental, social, and economic phenomena with three advanced learning technologies: game-based learning systems, intelligent tutoring systems, and narrative-centered learning systems. The game-based and narrative aspects of the project are embodied in the interactive time-travel focus of the 3D display on a multi-touch surface computing table in which users will play the role of environmental scientists who have been charged with helping earth become a thriving green planet. They will go back in time and be given the opportunity to make different decisions on any range of options. After they make their decisions, they will travel forward in time to see the results of their decisions. All of the interactions will be used to dynamically generate their time-travel adventures. The intelligent tutoring system will track user\'s problem-solving activities in the simulated world. As users make decisions, the intelligent tutoring system will draw inferences about their level of understanding of key environmental concepts. Given the current problem-solving goal (e.g., reduce green house gases) and the current state of the environment (e.g., climatological state, earth's population, factory emissions), the intelligent tutoring system will draw on its knowledge of common environmental misconceptions to assist students as they progress through the sustainability narratives. The intelligent tutoring system will receive the updated state from the agent-based simulation, which will then provide explanatory commentary and advice through the virtual human to the users about the causal connections underlying the results of the decisions they have made. Similarly, during the course of decision-making, users will be able to request advice, and the same computational framework will drive the virtual human\'s advice generation functionalities. The project will design, development, deploy, and evaluate a prototype intelligent cyberlearning platform for sustainability that supports independent, but guided, exploration of science topics. Because all users interactions will be accompanied by a virtual environmental scientist who will narrate their journeys and offer problem-solving advice, users will be afforded rich learning opportunities that support independent inquiry but also provided guided exploration of complex science topics. With a focus on group learning experiences in the out-of-school setting, the virtual environmental scientist will answer questions that will engage groups of users in a collaborative effort to understand the rich interrelationships of sustainability. The project will demonstrate the transformative potential of intelligent cyberlearning systems that integrate agent-based modeling with game-based learning, intelligent tutoring systems, and narrative-centered learning in an out-of-school setting to enable users to experience science in fundamentally new ways.
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TEAM MEMBERS:
James LesterBradford MottJames MinoguePatrick Fitzgerald
The Cornell Lab of Ornithology is creating a new type of interactive, question-driven, online bird-identification tool called "Merlin," along with associated games, social networking tools, and other media. Unlike existing bird-identification guides, which are based on traditional taxonomic keys written by scientists, Merlin uses machine learning algorithms and crowd-sourced data (information provided by thousands of people) to identify birds and improve Merlin's performance with each interaction. The tool will help millions of people identify birds and participate in a collective effort to help others. The Crowd ID project will make it easier for people to discover the names of birds, learn observation and identification skills, find more information, and appreciate Earth's biodiversity. The summative evaluation plan is measuring increases in participants' knowledge, engagement, and skills, as well as changes in behavior. Impacts on participants will be compared to a control group of users not using Merlin. Merlin tools will be integrated into the Cornell Lab's citizen science and education projects, which reach more than 200,000 participants, schoolchildren, and educators across the nation. Merlin will be broadly adapted for use on other websites, social networking platforms, exhibits, mobile devices, curricula, and electronic field guides. Once developed, Merlin can be modified to identify plants, rocks, and other animals. Merlin will promote growth of citizen science projects which depend on the ability of participants to identify a wide range of organisms.
LOOP is a new multiplatform, environmental project designed to help young children, ages 6-8, explore ecosystems and understand the science and systems of the natural world. Built upon a curriculum that moves beyond the 3Rs (reduce, reuse, recycle), the goal is to help lay the foundation for a lifelong interest in the science of sustainability. Deliverables include: a 20-episode television series with animated stories and live-action segments which feature families and children; an online game to immerse players in the same ecosystems seen on television; Loop Live Missions (outdoor science activities); and an afterschool/camp curriculum designed to get children and families outside to explore natural systems. Promotion of LOOP's educational resources will be undertaken through a partner network including the U.S. Forest Service, Children & Nature Network, National Recreation and Park Association, American Camp Association, National Summer Learning Association, Girl Scouts of the USA, and the Boys & Girls Clubs of America. LOOP is produced by WGBH in Boston and intended for national distribution on PBS. The project design creates an "interactive learning loop" which cycles between the television series, the Website, and outdoor science activities. The intended impacts are to: (1) deliver educational media to the target audience that increases their understanding of science and sustainability issues; (2) model and teach science concepts and scientific habits of mind; and (3) connect children and their families to the natural world. Concord Evaluation Group will be responsible for conducting formative and summative evaluation of the project. The summative evaluation is designed to measure project impacts with respect to change in behavior and attitudes, as well as science learning. The results of the evaluation will inform the curriculum for the current and future seasons of LOOP and contribute to the growing knowledge base of how media can effectively promote and teach substantive science to the young.