Curious Scientific Investigators (CSI): Flight Adventures immerses children and families in science, technology, engineering, and math (STEM) disciplines. Launched in February 2012, the project supports NASA’s Aeronautics Research Mission Directorate (ARMD), focusing on “innovative ideas to convey the fundamentals of flight, flight technology, and NASA’s role in aeronautics.” The project’s audience includes youth ages 6-18 and the Museum’s more than 1 million annual visitors of all ages. The project’s lead agency, The Children’s Museum of Indianapolis (Museum), developed and implemented the project in Indianapolis in partnership with the Academy of Model Aeronautics and NASA Dryden Flight Research Center. The project’s goals focus on inspiring children and families to develop an interest in STEM concepts and learn about NASA’s role in science and aeronautics research and the evolution of flight, and on engaging and educating them through inquiry-based programs that facilitate understanding of STEM concepts and knowledge and NASA’s contributions to flight. Centered on an original Multimedia Planetarium Show on flight, Flight Adventures, the Museum designed several components, all of which complement the show and the messages it conveys. Among these components are an exhibit area composed of a movable wind tunnel, a display of models, low- and high-tech interactives; a Unit of Study; a TV show, Wings Over Indiana; a website; and a variety of educational and family programs.
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TEAM MEMBERS:
Jennifer Pace-RobinsonGordon Schimmel
CREATE (Creating Relevant Education in Astronomy Through Experience) will immerse and teach astronomy to underserved high school students in Milwaukee who will then become planetarium producers and astronomy mentors to younger students. The Milwaukee Public Museum (MPM) is the lead this effort in conjunction with the Boys & Girls Club of Greater Milwaukee (BGCGM). MPM will also work with NASA and local astronomy institutions (Adler Planetarium & Yerkes Observatory) for educational materials and speakers. CREATE’s goal is to increase participation of high school youth from central-city neighborhoods in science, technology, engineering and math (STEM) education. The objectives are to: Engage these students who have shown an interest in STEM and leverage NASA resources to produce relevant astronomy education. Have the students become mentors for peers and younger students—thus inspiring themselves as well as their mentees to continue their educational paths in science. Build interest in NASA programs and in STEM careers with the creation of their planetarium shows and educational programs for their mentees. Expand CREATE’s impact by making these programs available nationwide and distribution of the planetarium show. The CREATE project will span three years. The first year will be spent on further development and planning of the program. During years two and three, CREATE staff will work with the students in an intensive 40-week program. Twenty students will be chosen to participate in CREATE each year.
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 MyDome project will bring 3D virtual worlds for group interaction into planetaria and portable domes. Advances in computing have evolved the planetarium dome experience from a star field and pointer presentation to a high-resolution movie covering the entire hemispherical screen. The project will further transform the dome theater experience into an interactive immersive adventure. MyDome will develop scenarios in which the audience can explore along three lines of inquiry: (1) the past with archeological reconstructions, (2) the present in a living forest, and (3) the future in a space station or colony on Mars. These scenarios will push the limits of technology in rendering believable environments of differing complexity and will also provide research data on human-centered computing as it applies to inquiry and group interactions while exploring virtual environments. The project proposes to engage a large portion of the population, with a special emphasis on the underserved and under-engaged but very tech-savvy teenage learner. Research questions addressed are: 1. What are the most engaging and educational environments to explore in full-dome? 2. What on-screen tools and presentation techniques will facilitate interactions? 3. What are the limitations for this experience using a single computer, single projector mirror projection system as found in the portable Discovery Dome? 4. Which audiences are best served by exploration of virtual hemispherical environments? 5. How large can the audience be and still be effective for the individual learner? What techniques can be used to provide more people with a level of control of the experience and does the group interaction enhance or diminish the engagement of different individuals? 6. What kind of engagement can be developed in producing scientific and climate awareness? Does experiencing past civilizations lead to more interest in other cultures? Does supported learning in the virtual forest lead to greater connection to and understanding of the real forest? Does the virtual model space experience excite students and citizens about space exploration or increase the understanding of the Earth's biosphere? The broader impacts of the project are (1) benefits to society from increasing public awareness and understanding of human relationships with the environment in past civilizations, today?s forests and climate change, and potential future civilizations in space and on Mars; (2) increasing the appeal of informal science museums to the tech-savvy teenage audience, and (3) significant gains in awareness of young people in school courses and careers in science and engineering. The partners represent a geographically diverse audience and underserved populations that include rural (University of New Hampshire), minority students (Houston Museum of Natural Science) and economically-distressed neighborhoods (Carnegie Museum of Natural History). Robust evaluation will inform each program as it is produced and refined, and will provide the needed data on the potential for learning in the interactive dome environment and on the optimal audience size for each different type of inquiry.
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TEAM MEMBERS:
Annette SchlossKerry HandronCarolyn Sumners
The Science Museum of Minnesota conducted a study to find out how many visitors stopped at the Science on a Sphere (SOS) exhibit during their visit to the museum, visitors' prior knowledge of SOS, and why a visitor might chose not to visit SOS. A total of 189 visitors were interviewed. Findings included: - Groups of adults and children were more likely to visit SOS than groups composed of adults only. - Most visitors just happened across the exhibit during their visit rather than sought it out. - Of the visitors who did not stop at SOS, few were familiar with the exhibit. - Both visitors who
In August 2009, the Program Evaluation and Research Group (PERG) at Lesley University contracted with the project's PI at the University of New Hampshire (UNH) to evaluate My Dome: Defining the Computational and Cognitive Potential of Real Time Interactive Simulations in an Immersive Dome Environment, an NSF funded grant. The project focuses on creating interactive experiences in immersive virtual environments, and builds off previous work the PI and co PIs have done in developing films and immersive experiences in domes and traveling domes. The project includes staff from the Carnegie Museum
Ice Planet Earth (IPE) was a three-year NSF-Funded grant, with a focus on building awareness and understanding of polar processes and designed to coincide with the International Polar Year, which took place from March 2007-March 2009. A key feature of the IPE project was the development of 'Ice Worlds', a planetarium style film designed for both general audiences and for students/youth. IPE was a collaboration between the University of New Hampshire, and the following institutions: The Carnegie Museum of Natural History in Pittsburgh; the Houston Museum of Natural Sciences; the Louisiana Art
This project will develop an interactive application for spherical displays developed by NOAA called Science on a Sphere. The spheres are animated globes that can show dynamic, animated images of the atmosphere, oceans, and land of a planet. NOAA primarily uses SOS as an education and outreach tool to describe the environmental processes of Earth. Science On a Sphere was initially developed as a way to explore environmental data using new visualization techniques. There are about 70 installations of the sphere in science centers, planetariums and museums world-wide with 40 in the US. Currently the spheres only display static content. This project will extend the amount of content available and provide interactivity. The resulting application will be available to both installed spheres and those institutions thinking about purchasing and installing the sphere display. Math on a Sphere will enable users to create 3-D interactive graphic content for spheres. The project will enable users to interact with the displays they develop for the spheres either on-site or remotely. Through the use of a computer-based toolkit, users can create their own programs, build geometric patterns, and send a variety of graphical content to the spherical display. The project hypothesizes that user-directed development combined with a visually compelling spherical display will spark interest in STEM topics and specifically, in the test version, mathematical content. This project will prototype, design, implement, test, and evaluate software that allows users to display their computational work on an installed sphere as well as work remotely on the project and to test their mathematical computations by viewing the spherical display remotely either through a computer monitor or a camera view of the sphere itself. While the prototype will be developed focusing on mathematical concepts, there are clear links between the toolkit being developed to physics, meteorology, oceanography and astronomy. The project will increase the computational and spatial reasoning and thinking of the target audience of middle school and high school students. The application will be available remotely for individual users but could easily be used in classroom settings. The application can be used by teachers and museum and science center staff as well to encourage its use among users both on site and remotely. The successful demonstration of interactive 3-D display of science concepts using the Science on a Sphere installations can lead to interactive use of other large public display installations such as walls or large screen projection. This capability would extend the ability of users to derive greater use of these visually driven devices for learning STEM concepts and content.
Carnegie Mellon University is developing an interactive, multimedia planetarium presentation about the human brain. The interdisciplinary project team will build upon and refine the experience gained from its recently completed planetarium show, Journey Into the Living Cell. The context for this work is the need for increased public understanding of the human brain - an organ central to the very concept of humanity. The understanding of the human brain is located at the lively crossroads of research in many disciplines, including psychiatry, psychology, neuroscience, computer science and biology. The proposed medium to address this important issue is a 45-minute planetarium show. A broad audience ranging from pre-adolescent to adult will be targeted. Sophisticated and entertaining imaging technologies, including animation and virtual reality, will be used throughout the work. Narration and sound will be tightly integrated into the work. The hemispherical display surface of the planetarium will be fully utilized both visually and sonically. Recent advances in the brain sciences as well as long held understandings about the brain will be presented. Basic brain biology and principles of brain function including cooperativity in brain region activity and brain region specialization will be introduced.
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TEAM MEMBERS:
James McClellandPaul OlesBryan Rogers
The Carnegie Science Center (of Carnegie Institute) and Carnegie Mellon University (Center for Light Microscope Imaging and Biotechnology, a National Science Foundation Science and Technology Center, and The Studio for Creative Inquiry) have initiated a collaborative project that portends to change in a dramatic fashion the planetarium theater as a tool for informal science education. After several months of preliminary discussions and, now, the beginning of work, the creative team has been assembled that is defining the vision and executing the program of this exciting project. The vision being formulated is the transformation of The Henry Buhl Jr. Planetarium into a new visualization environment to achieve an interdisciplinary and interactive group learning experience. We call this new concept the "Group Immersive Visualization Environment (GIVE). GIVE will accomplish much of the impact of virtual reality by combining "three-dimensional" images generated by Evans & Sutherland's Digistar Projection System with real and animated, high-resolution video computer images and multimedia and by providing direct audience-control of program direction via The Henry Buhl Jr. Planetarium's elaborate 156-seat, electronic response system. While we anticipate the eventual production of a series of programs in a variety of subject fields, the first to utilize GIVE will be "Journey to the Center of the Cell," a 35-minute presentation. The treatment will convey an experience of self-discovery and natural wonder as audiences transport themselves through striking visualizations of the living cell. Production and evaluation of "Journey to the Center of the Cell" and the development of the Group Immersive Visualization Environment will occur under the auspices of staff of The Henry Buhl Jr. Planetarium, key personnel from Carnegie Mellon University, evaluator Harris H. Shettel, and an Advisory Panel consisting of key planetarium and eductional professionals. Program production packages, incorporating compatible components of "Journey to the Center of the Cell," will be produced, marketed and distributed to public and school planetariums; and a Teacher Resource Kit containing supplementary educational materials in the form of video tapes, CD-ROMS and computer disks wil extend the program's reach into the classroom. Special relationships and viewing times will be offered at The Henry Buhl Jr. Planetarium targeting Pittsburgh inner city schools and regional districts containing large percentages of underserved and minority students.
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TEAM MEMBERS:
Paul OlesD. Lansing TaylorMartin Ratcliffe
This project is designed to develop a 3D planetarium show and a TV documentary to describe our Universe, Galaxy and Solar system. This is a significant project for public and youth as they do not comprehend this aspect of their world with clarity. New technology using a 3D film is anticipated to be attractive and capture the audience's attention better than previous exhibits methodology. The Detroit region has been selected for testing various aspects of the planning project. The partners include the Detroit Science Center, the Detroit Public School system, Dr. Mark Morris (Astronomer) at UCLA, the Cranbrook Institute of Science, Detroit Public Television, and the Carnegie Science Center. Subsequent dissemination of the results and techniques increases the potential for Nation-wide impact.
The Pacific Science Center will develop a 7000 sq. ft. traveling exhibit "Other Worlds! Other Beings"? Concerned that the general public is largely uninformed about the results of the years of basic science research carried out by U.S. scientists, this exhibit will provide an opportunity for visitors to learn about the results of this research and increase their own understanding of the earth and the solar system in general. The exhibit will introduce visitors to the planets, their environmental characteristics, potential and unlikely probability for life to exist on other planets and the processes involved in astronomical research. In addition to the exhibit, they will develop a planetarium program, materials for use by teachers and students, various workshops and other programs for teachers and community leaders, and a full marketing package for participating museums. The exhibit will travel to a minimum of nine museums during its three year tour after opening at the Pacific Science Center in December, 1997.