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 WGBH Educational Foundation and the NOVA production team will produce an hour-long special program in the NOVA series on the remarkable scientific response to Supernova 1987A, the most significant supernova to be observed since 1604. Responding rapidly to this unique opportunity, they will capture the spirit of science in formation, through video and audio interviews with many of the involved research scientists in their laboratories and observatories around the world during the critical time period when there are as many questions as answers about the event. They will continue to cover the scientific response into the summer and early fall, including scientific meetings that are expected to provide clarification and explanation of the supernova's behavior. They are responding with insight and speed to a rare opportunity, and will match National Science Foundation funds with $300,000 of their own production funds to produce this program. NSF support will be used to insure that the coverage land treatment of the event will be substantive and accurate, and rich enough in detail to illustrate the processes of scientific discovery, research cooperation, and debate and dialogue that leads to understanding. The resulting program will be seen by the more than 12 million viewers of the NOVA series, as well as by tens of thousands of classrooms in high schools and colleges. Educational materials will be produced to accompany the program. An award of $50,000 for FY87 is recommended.
ASTRONOMY - HOW DO WE KNOW? is a 4100 sq. ft. exhibit and program package for Discovery Place that will: 1) interpret the physical and chemical nature of astronomical bodies in the Universe, highlighting the scientific processes used in their discovery, 2) interpret, through interactive exhibits and programs, the basic technologies of the scientific study of astronomy, and 3) function as the complementary exhibition area to the new Spitz Space Voyager Planetarium system and its multi-dimensional program capabilities. ASTRONOMY - HOW DO WE KNOW? will make the science of astronomy more accessible to the public by demonstrating the above objectives through the fundamental concepts of Gravity, Light, Motion and Distance. Visitors will leave with a greater understanding of the process of learning about the Universe. Discovery Place will utilize the formative evaluation process in developing these exhibits to assure a product that will not only appeal to a broad audience, but will also meet a variety of identified needs within that audience. The exhibit and program package will open in October, 1992, with an anticipated yearly attendance of 700,000. The exhibits will be a permanent part of the museum and will be renewed through the general operating budget of the museum.
The Challenger Center for Space Science Education located in Alexandria, Virginia, a nonprofit organization with a mission to increase the number of youth interested in science and space, is requesting $303,170 over two years from the National Science Foundation (NSF) to develop a new scenario for its Challenger Learning Centers. Located in science centers. museums and schools around the country. Learning Centers house equipment and educational programming for hands-on training during a simulated mission. Scenarios use mathematics, science and problem-solving skills to provide participants with simulated experiences of working in a space laboratory and a "Mission control" laboratory. Challenger Center requests assistance and partnership from NSF to develop, field test, implement and evaluate a new scenario on the environment, "Mission to Planet Earth" scenario. This project will involve collaboration of expert scientists, educators, Challenger staff, and science museum professionals. Annually more than 180,000 students and between 10,000 and 15,000 adults will participate in the scenario at Learning Centers, using space as a format for learning about environmental issues. Challenger is working on the preliminary planning stage between June and December 1991. Two years of funding are requested from NSF beginning in January 1992.
George Awad, an artisan noted for his superb architectural models turned his talent to pursue his personal fascination with science and astronomy. The results was a preliminary prototype of a stunningly detailed and beautiful exhibit called "Model of the Universe by Powers of Ten". A special showing of the exhibit by the Planetary Society drew rave reviews from an audience of noted scientists and science educators. Preliminary showings at the Montshire Museum of Science and at the Smithsonian's Experimental Gallery demonstrated its unusual appeal withthe general public, and a second modified and larger version has been created by Mr. Awad. Montshire Museum of Science proposes to collaborate with the Maryland Science Center and with Mr. Awad to 1) further refine the two existing prototype exhibits, 2) develop companion interpretive materials to more fully convey the astronomical and mathematical concepts implicit in the exhibits, and 3) display the two prototypes at the two collaborating museum sites and evaluate their effective with the public. This work is intended to guide the proposed creation (not part of this proposal) of a permanent and much larger-scale "Universe" exhibit designed to be circulated among major science museums.
Lowell Observatory astronomers will collaborate with educators, museum specialists, and planetarium professional to design and implement a unique series of interactive science education exhibits entitled Tools of the Astronomer. The exhibits will capitalize on widespread interest in astronomy to illustrate the research process, demonstrate the theory and function of basic astronomical instruments, and encourage visitors to discover how measurements made with these instruments reveal the properties of celestial objects. Exhibit concepts developed by the Lowell staff will be evaluated by a National Exhibit Advisory Board (NEAB). The original concepts will then be modified to reflect the Board's recommendations, and prototype exhibits will be built. The prototypes will be extensively tested for durability and effectiveness in achieving the educational goals. Students and teachers from Arizona (including those from nearby Navajo and Hopi Indian Reservations), plus members of the general public, will participate in the testing. The NEAB will then review the completed prototypes and test results, and recommend any further modification or testing needed prior to selection of a professional exhibit fabricator to build the final exhibits. The completed exhibits will be installed and further evaluated in a new educational facility to be opened at Lowell Observatory in spring of 1994. There, the exhibits will be experienced by tens of thousands of people who visit Lowell Observatory each year. A significant fraction of these visitors will be school children who will participate in instructional programs designed around the exhibits. The exhibits also will ultimately be used in teacher workshops. To achieve maximum impact, all software, exhibit designs, teacher's guides, and other material developed in this project will be marketed to schools, science centers, planetaria, observatories, and other educational entities at the cost of reproduction.
As the world's largest single-dish radio telescope, Arecibo Observatory in Puerto Rico attracts thousands of visitors each year, of all ages and from many countries. Pride in the Observatory has caused local Puerto Rican organizations to contribute the funds necessary for the construction of the new Arecibo Observatory Visitor and Educational Facility. Cornell University, in behalf of the National Astronomy and Ionosphere Center, is requesting $774,463 form the NSF-ISE over a two year period to develop and implement the exhibits and educational programs which will give life to the Educational Facility. Within the facility, we propose establishing an educational program centered on the theme "More Than Meets the Eye", which will reflect the general idea that we can study our world with tools which extend our direct sensory experience. The proposed program will explore the unseen sky and, in particular, the objects that fall under the scrutiny of a radio telescope. Specifically, the program will introduce the visitors to the electromagnetic spectrum as a means of exploration, will offer a framework of basic astronomy and atmospheric science, and will provide understanding of the function and operation of the Arecibo radio telescope. Some of Arecibo's most exciting new discoveries in the fields of radio astronomy, solar system radar astronomy and astomospheric science will be presented so that visitors can experience the dynamic nature of science.
The Space Science Institute of Boulder, Colorado in partnership with the Franklin Institute Science Museum and the Electric Producers Research Institute will develop a 3000 sq. ft. traveling exhibit entitled Electric Space: Exploring Our Plasma Universe. Visitors to the exhibit will be introduced to the physics of the sun and the polar aurora. They will learn about the effect solar variability has on technology and humans working in space. The exhibit is divided into seven sections: Space is Not Empty; SkyWatchers; Plasma: the Fourth State of Matter; The Dynamic Sun; Planet Earth: a Great Magnet; Reaching Toward the Starts: the Heliosphere; and The Cosmic Connection. Its design is guided by the desire to create a total immersion environment that will allow visitors to explore the many realm of the plasma university from Earth's upper atmosphere to distant galaxies. It is the developers intention to demystify science by concentrating on process rather than facts, to create a stimulating informal learning environment, to reach a diverse audience, to motivate young people to pursue science as an interest and a career, and to have the exhibit serve as an interface between the scientific community and the general public. In addition to the exhibit, supplemental curriculum modules using an inquiry-based approach will be developed in cooperation with the Science Discovery Project at the University of Colorado. These materials will provide teachers, students, and parents the opportunity to explore the concepts presented in the exhibit. An extensive evaluation plan will be carried. The exhibit will open at the Maryland Science Center the summer of 1995. It will then travel to nine major US cities reaching an estimated two million adults and children who represent a great diversity of ages and education an ethnic backgrounds.
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.
How do we know the distance to a star? How do we know what a star is made of? How do we know how fast an object is moving? These questions are addressed in this 1,488 square foot permanent exhibit which emphasizes astronomical spectroscopy - the detailed analysis of light from astronomical objects. This interactive, bilingual (English/Spanish) exhibit will demonstrate different applications of spectroscopy that provide insight into the universe, and will provide opportunities for students, teachers, parents, and the general public to learn about the universe. Bilingual ancillary materials will be produced: pre- and post-visit materials for school visitors; a "Life at an Observatory" ten-minute orientation/information video to be shown at the visitor center. Target audiences are students in grades K-12, and general visitors.
The University of Texas at Austin requests $399,341 to expand the current Universo translations of StarDate into Spanish to more culturally relevant programs for a growing Hispanic audience. Plans include creation of longer programs with a different format for Hispanic Heritage Month for 1998-2000 and creation of complimentary collateral materials for distribution to 200 Spanish- language radio stations. Programs will also be distributed to 1,650 classrooms. A teacher's guide for using Universo in the classroom will be developed in English with activities available in both English and Spanish. A parent's guide to Universo/StarDate will also be produced to encourage parents to get involved in skywatching activities.
The Space Science Institute is developing a 5,000 s.f. hands-on traveling exhibitions called MarsQuest that will be the centerpiece of a wide-ranging planetary science education program. The exhibition will feature engaging, aesthetically designed, hands-on displays that offer experiences with science concepts relevant to Mars exploration, and will address the common misconceptions about Mars and its relationship to Earth. The most exciting aspect of the exhibition is its up-to-date connection to the progress and discoveries of 8-10 spacecraft that will be launched by NASA from 1996-2005. The exhibition will be supported by educational programs, including comprehensive teacher workshops, public programs on Mars themes, a 30-minute planetarium show emphasizing exploration and discovery, visits to schools and the dissemination of comprehensive field- tested educational materials developed by Arizona State University, the Planetary Society, NASA, the Pacific Science Center, and others. All educational materials will be aligned with the National Science Education Standards and will be available on the World Wide Web.