Climate Change: NASA’s Eyes on the Arctic is a multi-disciplinary outreach program built around a partnership targeted at k-12 students, teachers and communities. Utilizing the strengths of three main educational outreach institutions in Alaska, the Challenger Learning Center of Alaska partnered with the University of Alaska Museum of the North, the Anchorage Museum and UAF researchers to build a strategic and long lasting partnership between STEM formal and informal education providers to promote STEM literacy and awareness of NASA’s mission. Specific Goals of the project include: 1) Engaging and inspiring the public through presentation of relevant, compelling stories of research and adventure in the Arctic; 2) strengthening the pipeline of k-12 students into STEM careers, particularly those from underserved groups; 3) increasing interest in science among children and their parents; 4) increasing awareness of NASA’s role in climate change research; and 5) strengthening connections between UAF researchers, rural Alaska, and Alaska’s informal science education institutions. Each institution chose communities with whom they had prior relationships and/or made logistical sense. Through discussions analyzing partner strengths, tasks were divided; the Challenger Center taking on the role of k-12 curriculum development, the Museum of the North creating animations with data pulled from UAF research, to be shown on both in-house and traveling spherical display systems and the Anchorage Museum creating table top displays for use in community science nights. Each developed element was used while visiting the identified communities both in the classroom environment and during the community science nights.
The goal of this project is to advance STEM education in Hawaii by creating a series of educational products, based on NASA Earth Systems Science, for students (grades 3-5) and general public. Bishop Museum (Honolulu HI) is the lead institution. NASA Goddard Space Flight Center is the primary NASA center involved in the project. Partners include Hawaii Department of Education and a volunteer advisory board. The evaluation team includes Doris Ash Associates (UC Santa Cruz) and Wendy Meluch of Visitor Studies Inc. Key to this project: the NASA STEM Cohort, a team of six current classroom teachers whom the Museum will hire. The cohort will not only develop curricula on NASA earth science systems but also provide guidance to Bishop Museum on creating museum educational programming that best meets the needs of teachers and students. The overall goal of Celestial Islands is to advance STEM education in Hawaii through the use of NASA Earth Science Systems content. Products include: 1) combined digital planetarium/Science on a Sphere® program; 2) traveling version of that program, using a digital planetarium and Magic Planet; 3) curricula; 4) new exhibit at Bishop Museum on NASA ESS; 5) 24 teacher workshops to distribute curricula; 6) 12 community science events. The project's target audience is teachers and students in grades 3-5. Secondary audiences include families and other members of the general public. A total of 545,000 people will be served, including at least 44,000 students.
Bridging Earth and Mars (BEAM): Engineering Robots to Explore the Red Planet engages the general public and K-8 students in exhibits and programs designed to foster awareness of robotic technology, computer programming, and the challenges and opportunities inherent in NASA missions and S-STEM careers. The Saint Louis Science Center (SLSC) of St. Louis, Missouri is the lead institution and project site; partners include Washington University in St. Louis, Saint Louis University, the St. Louis regional FIRST Robotics organization, and the Challenger Learning Center-St. Louis. Project goals are to: 1) inform, engage, and inspire the public to appreciate NASA’s Mission by sharing findings and information about NASA’s missions to Mars; 2) ignite interest in S-STEM topics and careers for diverse K-8 students; and, 3) encourage students in grades 6-8 to sustain participation in educational experiences along the S-STEM careers pipeline. The SLSC will design and build a Martian surface and panorama where two rovers can be remotely controlled. Visitors in the McDonnell Planetarium will use controllers to program rover exploration of the Martian landscape in real-time. Visitors in SLSC’s Cyberville gallery, located one-quarter mile away across a highway-spanning enclosed bridge, will program the second rover with simulated time lag and view its movements via a two-way camera system. SLSC will organize and host a series of Innovation Workshops for K-8 students, each featuring teamwork-building engineering challenges from current and updated NASA-based science curricula. Participants will be recruited from SLSC community partners, which include community centers and faith-based programs for underserved families.
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
Interactive technologies are employed in museums to enhance the visitors' experience and help them learn in more authentic ways. Great amounts of time and money and many man-hours of hard work have been spent. But do such systems indeed achieve their goals? Do they contribute to a greater user experience (UX) and learning effectiveness? In this paper we describe the use of the "Walls of Nicosia" a 3D multi-touch table installed at the Leventis Municipal Museum in Nicosia, Cyprus. Two groups of students actively participated in this empirical study (they attended the 5th year class at
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Panagiotis ZahariasDespina MichaelYiorgos Chrysanthou
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
In this paper, we examine the interactional ways that families make meaning from biological exhibits during a visit to an interactive science center. To understand the museum visits from the perspectives of the families, we use ethnographic and discourse analytic methods, including pre- and postvisit interviews, videotaped observations of the museum visits, and coding and analysis of utterances from naturally occurring conversations. We employ an Everyday Expertise framework to understand how families use ideas and materials to make meaning from the scientific content presented in exhibits. We
The Lemelson Center for the Study of Invention and Innovation at the Smithsonian’s National Museum of American History (NMAH) contracted Randi Korn & Associates, Inc. (RK&A) to conduct a process evaluation for Smithsonian Affiliates’ involvement in Places of Invention (POI), an exhibition funded by the National Science Foundation. Affiliates are working with community partners to create digital content for the Interactive Map featured in the exhibition, and using POI core concepts to create local programming in conjunction with the exhibition. The study sought to understand the successes and
Key to introducing information and communication technologies in museums is to support meaning-making activity in encounters with artefacts. The study presented in this paper is exploratory in nature and investigates the use of social and mobile technologies in school field trips as a means of enhancing the visitor experience. It is anchored in sociocultural perspectives of learning as meaning making, with a focus on mediating artefacts in the development of understanding. The Museum of London was selected as the site of the study and the participants were a Year 9 History class (13-14 years
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Koula CharitonosCanan BlakeEileen ScanlonAnn Jones
Painting with Natural Selection is an interactive installation that uses evolution and scientific experimentation to create an artistic experience. Painting is the second phase of a larger art and science project that explores the relationship between evolution and reproduction. Phase I was building custom software that simulates virtual organisms growing, reproducing and evolving - Evorepro. Evorepro was funded by a Science Education Partnership Award led by Dr. John A. Pollock at Duquesne University. Painting was funded by a Spark Award from the Sprout Fund. In Painting, kids influence the evolution of simulated bacteria by changing their virtual environment. The experience allows kids to get creative right away as they develop an intuitive understanding of the ebb and flow of evolutionary processes. The virtual organisms respond and evolve in real-time creating a visceral connection between the individual and their impact in the virtual world that leads to an awareness of our footprint in our real world and wonder at life's adaptability.
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Carnegie-Mellon UniversityJoana Ricou
This report was completed by the Program Evaluation Research Group at Endicott College in October 2013. It describes the outcomes and impacts of a four-year, NSF-funded project called Go Botany: Integrated Tools to Advance Botanical Learning (grant number 0840186). Go Botany focuses on fostering increased interest in and knowledge of botany among youth and adults in New England. This was being done through the creation of an online flora for the region, along with the development of related tools, including PlantShare, and a user-friendly interface for ‘smartphones’. In January 2012, the PI
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Judah LeblangNew England Wild Flower Society