Supported by the National Science Foundation, the Global Soundscapes! Big Data, Big Screens, Open Ears project employs a variety of informal learning experiences to present the physics of sound and the new science of soundscape ecology. The interdisciplinary science of soundscape ecology analyzes sounds over time in different ecosystems around the world. The major components of the Global Soundscapes project are an educator-led interactive giant-screen theater show, group activities, and websites. All components are designed with both sighted and visually impaired students in mind. Multimedia
Glaciers around the world are undergoing dramatic changes. Many people, however, have a limited understanding of the scope of these changes because they are geographically distant and difficult to visualize. Although both digital learning tools and online scientific data repositories have greatly expanded over the last decade, there is currently no interface that brings the two together in a way that allows the public to explore these rapidly changing glacial environments. Therefore, to both improve public understanding and provide greater access to already existing resources, the project team will develop the Virtual Ice Explorer to encourage informal learning about glacial environments. This web application will feature an immersive virtual environment and display a suite of environmental data for an array of Earth's glacial systems. An interactive globe will allow users to select from a collection of sites ranging from polar regions to tropical latitudes. Each featured site will offer users an opportunity to interact with (1) a 3D rendering of the landscape; (2) a local map of the site; (3) historical and contemporary photographs of the site; (4) background information text describing the location, past research, and climate impacts; and (5) available environmental data. One of the most original features of the application will be its realistic, immersive 3D rendering of glacial landscapes by combining very high-resolution digital elevation models and satellite imagery with the application's built-in capabilities for immersive virtual environments. Although immersive environments often require expensive equipment, we are maximizing accessibility by developing the Virtual Ice Explorer to run in a web browser and function across various devices. Thus, the application will be available to anyone with internet access, and they can explore at their own pace.
As part of the successful development of Virtual Ice Explorer, the project team will create a platform for digital elevation models to be visualized and explored in 3D by users within the web application; curate digital elevation models, maps, images, text, and environmental data for inclusion in the web application for up to 11 geographically diverse glaciers/glacial landscapes; iteratively user-test the web application with project partners; and design the architecture of the system to readily scale to a larger collection of glaciers/glacial landscapes. To extend dissemination of the final products, the team has partnered with the U.S. Geologic Survey to showcase four benchmark glaciers in their long-term Glaciers and Climate project. In addition to improving understanding of glacier systems in informal learning environments, the project team will explore applications for spatial learning, employment of 3D environments for educational interventions, and use of Virtual Ice Explorer in formal learning environments. 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. The project also has support from the Office of Polar Programs.
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Jason CervenecJesse FoxJulien Nicolas
Space Science Institute (SSI) is conducting an International Polar Year project in partnership with the Marine Advanced Technology Center (NSF-funded MATE, Monterey, CA) and the Challenger Learning Center of Colorado (CLCC) to produce and disseminate an online simulation of scientific explorations by the latest generation of Antarctic underwater remotely operated vehicles (ROV). The explorations are based on the ROV work of Dr. Stacey Kim of the Moss Landing Marine Laboratories and of Dr. Robert Pappalardo and Dr. Arthur Lane at the Jet Propulsion Lab. Products include the simulation, supporting materials and guides, a web site, and a CD Master. Targeted audiences include: (a) middle-school to college-aged students who participate in national annual underwater ROV competitions, (b) Challenger Learning Centers in Colorado and around the country, and (c) the "science attentive" public who will access the simulation via links to SSI and other web sites. Simulations will follow a game structure and feature Antarctic polar science. Estimated annual usage levels are: for MATE, 2000; for Challenger Centers, 300,000; for the general public, 100,000. The project is positioned to continue well beyond the official end of the International Polar Year
This pathways project would refine and test a game based on the Kinect technology gaming tool to teach seismology concepts in an informal education setting and how they apply to phenomenon in other STEM fields. The game will be developed as a companion tool to the "Quake Catcher Network" a low-cost network of seismic sensors in schools, homes and offices world-wide and tie-ins with seismology programs such as the great California ShakeOut with a participant base of 8.6 million. The project design would select three new learning modules, chosen by a group of scientists and educators, to incorporate into the game and evaluate player experience and knowledge gain. The activities will be conducted at a partner test site, an aquarium, frequented by area youth 8 - 12 years old. The focus of the effort is to add to the knowledge of how gaming can be used effectively in informal learning environments The game places the player as a scientist, allowing the player to make decisions about seismic station deployment strategies following an earthquake, installing the sensors and monitoring incoming data. The game has levels of difficulty and players accrue points by acting swiftly and correctly. Learning goals for the project include making abstract math concepts understandable; involve participants in data collection and the process of scientific investigation, plus demonstrate how scientists and mathematicians use tools of their fields to address real-world issues.
In partnership with the University of Pennsylvania's Graduate School of Education, The Franklin Institute Science Museum will develop, test, and pilot an exportable and replicable cyberlearning exhibit using two cutting edge technologies: Augmented Reality (AR) and Virtual Reality (VR). The exhibit's conceptualization is anchored in the learning research vision of the NSF-funded workshop Cyberinfrastructure for Education and Learning for the Future (Computing Research Association, 2005). The incorporation of VR and AR technologies into the Franklin Institute's electricity and Earth science exhibits is an innovation of traditional approaches to hands-on learning and will improve the quality of the learning experience for the primary audience of families with children and elementary school groups. The project has implications for future exhibit development and more broadly, will provide new research on learning on how to incorporate cyberlearning efforts into traditional exhibits. Fifteen participating exhibit developers across the ISE field will assist in the evaluation of the new exhibit; receive training on the design and development of VR and AR exhibits for their institutions; and receive full access to the exhibit's new software for implementation at their informal learning sites. The technology applications will be developed by Carnegie Mellon University's Entertainment Technology Center--leaders in the field in Virtual Reality design and development. Front-end and formative evaluation will be overseen internally by the Franklin Institute. The Institute for Learning Innovation will conduct the summative evaluation. Research will be conducted by the University of Pennsylvania's Graduate School of Education on the effects of AR and VR technologies on exhibit learning.
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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Stroud Water Research CenterJohn Fraser
In 1831 Michael Faraday built a small generator that produced electricity, but a generation passed before an industrial version was built, then another 25 years before all the necessary accoutrements for electrification came into place—power companies, neighborhood wiring, appliances (like light bulbs) that required electricity, and so on. But when that infrastructure finally took hold, everything changed—homes, work places, transportation, entertainment, architecture, what we ate, even when we went to bed. Worldwide, electricity became a transformative medium for social practices. In quite
In this article, we describe a preliminary study that integrates research on engineering design activities for K-12 students with work on microworlds as learning tools. Here, we extend these bodies of research by exploring whether - and how - authentic recreations of engineering practices can help students develop conceptual understanding of physics. We focus on the design-build-test (DBT) cycle used by professional engineers in simulation-based rapid modeling. In this experiment, middle-school students worked for 10 hr during a single weekend to solve engineering design challenges using
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.
Funded jointly by the Institute of Museum and Library Services (IMLS) and the MacArthur Foundation, in partnership with the and Association of Science-Technology Centers (ASTC) and Urban Libraries Council (ULC), Learning Labs in Libraries and Museums supports the planning and design of 24 learning labs in libraries and museums nationwide. The inaugural cohort of 12 sites ran from January 2012 to June 2013, and a second cohort of 12 additional sites began in January 2013 and will extend through June 2014. In addition to the primary awardees, most grants included additional institutional partners, resulting in a rich community including over 100 professionals from approximately 50 participating organizations (libraries, museums, universities, and community-based organizations). The labs are intended to engage middle- and high-school youth in mentor-led, interest-based, youth-centered, collaborative learning using digital and traditional media. Inspired by YOUmedia, an innovative digital space for teens at the Chicago Public Library, as well as innovations in science and technology centers, projects participating in Learning Labs are expected to provide prototypes for the field based on current research about digital media and youth learning, and build a "community of practice" among the grantee institutions and practitioners interested in developing similar spaces.
In this article, Annette Noschka-Roos discusses a study of a computer-supported information system (CIS) touch-screen interactive in the "New Energy Techniques" gallery at the Deutsches Museum. The objective of the study was to gather systematic data on how the medium is used by visitors. Noschka-Roos provides key findings from the study.
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Annette Noschka-RoosVisitor Studies Association
Researchers at the U.C. Davis will carry out observations of museum visitors to plan for a study of how visualizations affect visitors of an Earth Sciences exhibit using 3D technology. The researchers will be able to conduct an experimental study about how much participants in an education center learn from the model of earthquakes and of a model of the Lake Tahoe basin. The researchers will conduct a quasi-experiment of a sample of 100 visitors to the center at Lake Tahoe to study their experience with visualization and learning of science. The funding for this phase of the project will include the development of audience surveys, conducting focus groups to develop types of feedback, train staff to conduct data collection, and to conduct a literature review of technology visualization.