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
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.
The Environmental Scientist-in-Residence Program will leverage NOAA s scientific assets and personnel by combining them with the creativity and educational knowledge of the pioneer hands-on science center. To do this, the program will embed NOAA scientists in a public education laboratory at the Exploratorium. Working closely with youth Explainers, exhibit developers, and Web and interactive media producers at the Exploratorium, NOAA scientists will share instruments, data, and their professional expertise with a variety of public audiences inside the museum and on the Web. At the same time the scientists will gain valuable skills in informal science communication and education. Through cutting-edge iPad displays, screen-based visualizations, data-enriched maps and sensor displays, and innovative interactions with visitors on the museum floor, this learning laboratory will enable NOAA scientists and Exploratorium staff to investigate new hands-on techniques for engaging the public in NOAA s environmental research and monitoring efforts.
The mixed methods randomized experimental study assessed a model of engagement and education that examined the contribution of SciGirls multimedia to fifth grade girls’ experience of citizen science. The treatment group (n = 49) experienced 2 hours of SciGirls videos and games at home followed by a 2.5 hour FrogWatch USA citizen science session. The control group (n = 49) experienced the citizen science session without prior exposure to SciGirls. Data from post surveys and interviews revealed that treatment girls, compared to control girls, demonstrated significantly greater interest in their
STEM Pathways is a collaboration between five Minnesota informal STEM (science, technology, engineering, and mathematics) education organizations—The Bakken Museum, Bell Museum of Natural History, Minnesota Zoo, STARBASE Minnesota, and The Works Museum—working with Minneapolis Public Schools (MPS) and advised by the Minnesota Department of Education. STEM Pathways (logo shown in Figure 1) aims to provide a deliberate and connected series of meaningful in-school and out-of-school STEM learning experiences to strengthen outcomes for students, build the foundation for a local ecosystem of STEM
The Jackprot is a didactic slot machine simulation that illustrates how mutation rate coupled with natural selection can interact to generate highly specialized proteins. Conceptualized by Guillermo Paz-y-Miño C., Avelina Espinosa, and Chunyan Y. Bai (New England Center for the Public Understanding of Science, Roger Williams University and the University of Massachusetts, Dartmouth), the Jackprot uses simplified slot-machine probability principles to demonstrate how mutation rate coupled with natural selection suffice to explain the origin and evolution of highly specialized proteins. The
Despite the potential of augmented reality (AR) in enabling students to construct new understanding, little is known about how the processes and interactions with the multimedia lead to increased learning. This study seeks to explore the affordances of an AR tool on learning that is focused on the science concept of magnets and magnetic fields. Seventy students in grades 5 through 7 participated in the study in a non- AR or AR condition. Findings showed that students in the AR condition interacted with the magnets significantly longer and demonstrated higher amounts of teamwork. In interviews
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TEAM MEMBERS:
Susan YoonJoyce Wang
resourceprojectWebsites, Mobile Apps, and Online Media
SETAC is funded by the Lifelong Learning Programme of the European Union and emerges out of the need to undertake specific action for the improvement of science education. It regards science education as among the fundamental tools for developing active citizens in the knowledge society. SETAC draws on the cooperation between formal and informal learning institutions, aiming to enhance school science education and active citizenship looking further into the role of science education as a lifelong tool in the knowledge society. On the day of the project’s conclusion, 31 October 2010, after two years of work SETAC contributes the following products and results to the field: 1. “Quality Science Education: Where do we stand? Guidelines for practice from a European experience” This is the concluding manifesto that presents the results of the SETAC work in the form of recommendations for practitioners working in formal and informal science learning institutions; 2. “Teaching and Learning Scientific Literacy and Citizenship in Partnership with Schools and Science Museums” This paper constitutes the theoretical framework of the project and innovative ways of using museums for science education and develop new modes of linking formal and informal learning environments; 3. Tools for teaching and learning in science: misconceptions, authentic questions, motivation. Three specific studies, leading to three specific reports, have been conducted in the context of the project, looking in particular into notions with an important role in science teaching and learning. These are on: Children’s misconceptions; Authentic questions as tool when working in science education; Students’ attitudes and motivation as factors influencing their achievement and participation in science and science-related issues; 4. Activities with schools: SETAC developed a series of prototype education activities which were tested with schools in each country. Among the activities developed between the partners, two have been chosen and are available on-line for practitioners to use and to adapt in their own context. These are: The Energy role game, a role game on Energy invites students to act in different roles, those of the stakeholders of an imaginary community, called to debate and decide upon a certain common problem; MyTest www.museoscienza.org/myTest, which aims to encourage students to engage in researching, reflecting and communicating science-oriented topics; 5. European in-service training course for primary and secondary school teachers across Europe. The training course is designed in such a way as to engage participants in debate and exploration of issues related to science education and active citizenship. The course is open to school teachers, headteachers and teacher trainers from all EU-member and associate countries. Professionals interested can apply for a EU Comenius grant. All the products of the project as well as information about the training course are available at the project website, some of them in more than one languages: www.museoscienza.org/setac
Safe Techniques Advance Research – Laboratory Interactive Training Environment (STAR-LITE) is an innovative laboratory safety training created by the National Institutes of Health, Office of Research Services, Division of Occupational Health and Safety, for high school and undergraduate students. The training was designed to incorporate laboratory safety and risk assessment with the architecture of game-based learning. In this respect, STAR-LITE provides student users with a salient educational experience that uses visual and audio clues, strategic thinking, and physical action to enhance the learning experience. The goal of STAR-LITE is to expand the student’s knowledge base with an introduction to safe laboratory and common risk assessment techniques. STAR-LITE comprises a series of pursuit or Quest-based activities that occur in a virtual laboratory environment. Users direct individualized characters, or avatars, to interact and engage with the features in the virtual laboratory to progress through continuous challenges. STAR-LITE provides users with a significant, repeatable educational experience using visual and audio clues, strategic thinking, and physical action to enhance the learning process. This training offers a unique method of instruction by integrating development of critical thinking proficiencies and application of problem solving skills with visualization of consequences, which result from unsafe behaviors. STAR-LITE’s educational content is presented in a virtual laboratory environment in which virtual characters experience exposures to hazardous biological, chemical, and physical hazards with real-life consequences. Student users participate in a series of Quests that require interaction with characters and laboratory equipment. Basic laboratory safety skills and techniques are presented in the training. These skills and techniques include an introduction to potential biological, chemical, and physical hazards that may be present in multi-discipline laboratories; methods to prevent injuries in the laboratory; methods to protect students, colleagues, and the environment from potential hazards in the laboratory; and emergency preparedness and response basics. STAR-LITE was designed to ensure student users walk through a risk assessment process during each Quest. Because STAR-LITE is a digital game-based learning experience, users can repeat the training as many times as they like. The repeatability of this training enhances the student’s learning experience and allows them to pursue different risk assessment decision paths as they progress through the Quest.
Media MashUp (MMU) was an IMLS funded project (LG-07-08-0113 ) designed to help libraries build capacity for offering computer-based programs for youth. These programs were designed to help foster 21st Century literacy skills. The program focused on the Scratch programming language (http://scratch.mit.edu/), but also used other creative freeware programs (i.e., Audacity, Picasa, SAM animation, ArtRage). MMU was a partnership among six library systems from around the country and The Science Museum of Minnesota. Three staff members from each library participated in the program: two librarians or
The Media MashUp project is funded by the IMLS (Grant LG-07-08-0113 ) to build capacity at libraries for computer-based programs for youth that help build 21st Century literacy skills. Twenty first Century literacy skills include interactive engagement with technology, collaboration and team problem solving, taking initiative and managing time and the use of higher level processing skills (www.21stcenturyskills.org/). This project uses the Scratch programming platform (http://scratch.mit.edu/) developed at MIT to help foster youth's 21st Century literacy skills. The professional audience