The Maryland Science Center (MSC) Astrobiology project includes an interactive exhibit and Davis Planetarium program for school and public museum visitors, exploring the search for life in our Solar System, the search for exoplanets and an understanding of extreme forms of Earthly life. Four day-long Educator Workshops have taken place during the project with a total of 179 teachers participating.
Baltimore’s MSC is the lead institution, with the project led by PI Van Reiner, MSC President and CEO and Co-PI Jim O’Leary, MSC Senior Scientist, and science advisors consisting of astronomers, biologists, a geologist and educators representing NASA Goddard Space Flight Center, Space Telescope Science Institute, Carnegie Institute of Washington, Johns Hopkins University and the University of Maryland and Maryland School for the Blind.
The project provides visitors with a sense of the Milky Way Galaxy’s size and composition, the galaxy’s number of stars and potential planets, and the number of other galaxies in the Universe. The exhibit explores Earthly extremophiles, what their survival signifies for life elsewhere in the Solar System, and examines possibilities for life on Mars and moons of the Solar System, explores techniques used to detect exoplanets and NASA’s missions searching for exoplanets and Earth-like worlds. The project looks to provide a sense of the vast number of potential planets that exist, the hardiness of Earthly life, the possibilities for life on nearby planets and moons, and the techniques used to search for exoplanets.
The exhibit and Planetarium program premiered November 2, 2012, and both remain as long-term Science Center offerings. Since opening, MSC has hosted nearly a million visitors, and with the Life Beyond Earth exhibit located in a highly trafficked area near the Davis Planetarium and Science On a Sphere, the great majority of visitors have experienced the exhibit. The We Are Aliens program in the Davis Planetarium has been seen by more than 26,000 visitors since opening.
The Mars Exploration Exhibit is a new public exhibition designed to provide experiential learning opportunities for students, educators and the public while inspiring greater excitement about space science. The exhibit emphasizes the importance of STEM education and careers through practical application and inquiry-based learning. Space Center Houston, the official visitor center of Johnson Space Center, is creating the new Mars landscape simulation in partnership with the Houston Independent School District and University of Houston Clear Lake. The exhibit will offer interactive science education activities that will be delivered through distance learning and onsite instruction at Space Center Houston. Utilizing research-based practices in both formal and informal learning environments, the project will help to attract and retain students in science, technology, engineering and mathematics. It will also foster life-long learning and enthusiasm toward the promise of space science and innovation. This unique exhibit will enable students and Space Center Houston’s more than 800,000 annual visitors to increase their knowledge of Earth science and apply their learning to the Mars environment. The exhibit will also highlight the role NASA missions serve in scientific innovation. The project will build the capacity of the Greater Houston community and school-based organizations to engage girls, minorities and other underrepresented students in STEM learning. It will offer in-depth science education for low-performing and gifted/talented students, ultimately bridging achievement gaps, increasing student performance and cultivating greater interest in science. Project outcomes will include: a 1,500-square-foot Mars landscape exhibition; interactive video presentations highlighting water recovery and other environmental processes; a standards-based learning curriculum aligned with Texas Essential Knowledge and Skills (TEKS ) and National Science Standards; and a menu of K-12 experiential learning activities focused on water, air, renewable energy and other critical science topics.
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TEAM MEMBERS:
Janet BrownMelanie JohnsonPaul SpanaMeg Naumann
Over the last decade, hundreds of planetariums worldwide have adopted digital “fulldome” projection as their primary projection and presentation medium. This trend has far-reaching potential for science centers. Digital planetarium capabilities extend educational and cultural programming far beyond night-sky astronomy. These “digital domes” are, in essence, immersive visualization environments capable of supporting art and live performances and reproducing archeological sites, as well as journeying audiences through the local cluster of galaxies. Their real-time and rapid-update capabilities
The Houston Museum of Natural Science, in collaboration with Rice University has an outreach program taking portable digital theaters to schools and community sites for over five years and has conducted research on student learning in this immersive environment. By using an external independent evaluator, the effectiveness of NASA-funded Education and Public Outreach (EPO) projects can be assessed. This paper documents interactive techniques and learning strategies in full-dome digital theaters. The presentation is divided into Evaluation Strategies and Results and Interactivity Strategies and
In 2007, Chabot Space & Science Center, with partners LodeStar Astronomy Center and the Institute for Learning Innovation, received a National Science Foundation grant (#0610253) to develop, create, distribute, and conduct research on a full-dome planetarium show titled Tales of the Maya Skies. This physically immersive show was designed to transport viewers to ancient Maya civilizations and to push the boundaries of narrative approach in planetariums by presenting the film with a “cultural wrapper” of the Maya people and their achievements in archaeo-astronomy. The research conducted three
The author reflects on the use of some media channels to disseminate information about astronomy. He states that there is a striking absence of regularly maintained blogs hosted by major astronomical institutions. He asserts that social networking sites offer a quick and efficient channel for dissemination of content to a younger audience. He offers information on Second Life, the most popular non-game-based virtual community.
In this study, the instructional effectiveness of the planetarium in astronomy education was explored through a meta-analysis of 19 studies. This analysis resulted in a heterogeneous distribution of 24 effect sizes with a mean of +0.28, p<.05. The variability in this distribution was not fully explained under a fixed effect model. As a result, a random effects model was applied. However, a large random effect variance component indicated that study differences were indeed systematic. The findings of this meta-analysis showed that the planetarium has been an effective astronomical teaching tool
The Zooniverse projects turn everyday people into "citizen scientists" who work online with real data to assist scientists in conducting research on a variety of topics related to galaxies, exoplanets, lunar craters, and solar flares, among others. This paper describes our initial study to assess the conceptual knowledge and reasoning abilities of citizen scientists participating in two Zooniverse projects: Galaxy Zoo and Moon Zoo. In order to measure their knowledge and abilities, we developed two new assessment instruments, the Zooniverse Astronomical Concept Survey (ZACS) and the Lunar
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TEAM MEMBERS:
Edward PratherSebastien CormierColin WallaceChris LintottJordan RaddickArfon Smith
The National Air and Space Museum (NASM) contracted with Randi Korn & Associates, Inc. (RK&A) to help determine realistic strategies and next steps for scaling up its Science in Pre-K program, a PNC Bank-funded teacher professional development program that supports District of Columbia Public Schools’ (DCPS) preschool teachers in teaching science through exploration and problem solving. How did we approach this project? RK&A prepared two literature reviews—Scaling Up and Distance Education—intended to explore best practices for scaling up non-profit programs and facilitating distance learning
Despite decades of research on the importance of engagement and interaction in learning experiences, programs produced for planetarium audiences are primarily passive in nature. Planetarium professionals were interviewed with regard to their goals and beliefs for planetarium experiences, specifically focusing on goals for children, and their interest with regard to a program format that integrates segments of live interaction with automated content (N=36). Planetarium professionals' goals most frequently reflect increasing content knowledge and motivating audiences to continue learning. To
This study extends our understanding of the goals, beliefs, and pedagogical choices made by planetarium professionals. Interviews were conducted with planetarium professionals (N=36) to assess their goals for audiences and beliefs about the design of the learning environment. Classification of participants, according to a six-facet framework on effective learning environment design, suggests a range of perspectives on the design of the learning environment that primarily include learner-centered, motivationally-oriented, socioculturally-centered, and physically-oriented perspectives. Results
The National Air and Space Museum (NASM) contracted with Randi Korn & Associates, Inc. (RK&A) to help determine realistic strategies and next steps for scaling up its Science in Pre-K program, a PNC Bank-funded teacher professional development program that supports District of Columbia Public Schools’ (DCPS) preschool teachers in teaching science through exploration and problem solving. How did we approach this project? RK&A prepared two literature reviews—Scaling Up and Distance Education—intended to explore best practices for scaling up non-profit programs and facilitating distance learning