Michigan Technological University will collaborate with David Heil and Associates to implement the Family Engineering Program, working in conjunction with student chapters of engineering societies such as the American Society for Engineering Education (ASEE), the Society of Hispanic Professionals (SHP) and a host of youth and community organizations. The Family Engineering Program is designed to increase technological literacy by introducing children ages 5-12 and their parents/caregivers to the field of engineering using the principles of design. The project will reach socio-economically diverse audiences in the upper peninsula of Michigan including Native American, Hispanic, Asian, and African American families. The secondary audience includes university STEM majors, informal science educators, and STEM professionals that are trained to deliver the program to families. A well-researched five step engineering design process utilized in the school-based Engineering is Elementary curriculum will be incorporated into mini design challenges and activities based in a variety of fields such as agricultural, chemical, environmental, and biomedical engineering. Deliverables include the Family Engineering event model, Family Engineering Activity Guide, Family Engineering Nights, project website, and facilitator training workshops. The activity guide will be pilot tested, field tested, and disseminated for use in urban, suburban, and rural settings. Strategic impact will result from the development of content-rich engineering activities for families and the dissemination of a project model that incorporates the expertise of engineering and educational professionals at multiple levels of implementation. It is anticipated that 300 facilitators and 7,000-10,000 parents and children will be directly impacted by this effort, while facilitator training may result in more than 27,000 program participants.
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TEAM MEMBERS:
Neil HutzlerEric IversenChristine CunninghamJoan ChaddeDavid Heil
In this article, Gary T. Johnson, President of the Chicago History Museum, discusses the Spanish-language initiative at his museum. Johnson describes how Spanish exhibit labels were received , lessons learned about preparing Spanish labels, and additional ways the museum attempts to reach out to Chicago's diverse community.
This planning grant award addresses the subject of cosmology using contemporary film technology. A screen play and film prototype will take viewers from the historical Big Bang phenomena to contemporary thinking on dark energy and matter. STEM disciplines incorporated within this project are mathematics, physics, biology, chemistry and geology, in addition to astronomy. An additional significant issue in this award will be the effort to form a network of dome and planetarium theaters. Such an organization could facilitate promotion and evaluation of this project and future projects. In the future, the network will be positioned to assess the differences in educational impact from large format flat screen, large format dome screen and planetarium dome presentations. Collaborations on this project include The Reuben H. Fleet Science Center, the Mathematics Science Research Institute, and advisors George Smoot and Saul Perlmutter of the Lawrence Berkeley Laboratory. Barbara Flagg is the project evaluator. Specific needs for the planning grant are to: 1. gather formative evaluation on audience parameters; 2. develop a short prototype film and a first draft of the screen play; 3. complete the advisory team; 4. translate the deliverables into Spanish language; 5. evaluate and bid the computer animation facilities; and 5. identify a network of dome and planetarium theaters for their evaluation.
This Communicating Research to Public Audiences (NSF 03-509) project in partnership with the American Museum of Natural History will produce a 7-minute High Definition video documentary feature story, Moving Mountains, that follows researchers in the field during the third season of the five year St. Elias Erosion/Tectonics Project (STEEP). STEEP (NSF award #0409009/0735402) is a multidisciplinary, multi-institutional study using geophysical, geological, and climatological methods to investigate a fundamental Earth science research issue. This project affords a unique opportunity to illustrate the diversity of techniques that are brought to bear in modern research efforts in the Earth sciences. The video will be projected on a 12-foot screen in the American Museum of Natural History's Hall of Planet Earth and displayed in adjacent kiosks. It will also be distributed as HD Mpeg2 files to a network of 21 informal science institutions reaching a potential viewer ship of over 7 million people. Two master versions of the video will be produced: one with English language captions and one with Spanish language captions.
The North Alabama Science Center (NASC) will develop an interactive virtual learning experience in atmospheric science that combines a 3-D large-screen format presentation with interactive program activities. The project will be designed to run on the statewide network of Immersive Theaters located at three science centers across Alabama: NASC in Huntsville; Gulf Coast Exploreum in Mobile; and the Alabama Wildlife Federation Field Center in Montgomery. The project concept integrates scientific methods of inquiry into a virtual hands-on learning program, providing a mechanism for social-based informal learning about atmospheric science. To sustain engagement beyond the science center venue, ancillary materials will be developed, including a unique, interactive website. A project advisory committee consisting of members of the informal learning community, industry, academia, pedagogical practitioners and researchers, informed by front-end, formative and summative evaluation, will guide project development. The evaluation will provide findings to inform the future development of immersive theater programs, and other exhibit formats that may combine data visualization with data explorations. The project will expand its audience in Alabama through development of a Spanish-language version and its website developed in concert with the immersive theater program. The North Alabama Science Center's project will allow programs created for its immersive theater system to be used in other content visualization systems at other science centers. As a long-term impact this will enable new venues nationwide utilizing other content visualization systems to use the proposed project at their respective sites.
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TEAM MEMBERS:
Angela MoultonLaurie ProvinMike BottsHeather Roden
The Children's Museum of Houston, in cooperation with Scholastic Entertainment, the National Weather Service and the American Meteorological Society (AMS), will develop, produce and nationally circulate two (2) copies of a 2,500-sq.ft. interactive exhibit. Using the popular icon of the Magic School Bus, the exhibit will take young children on a journey of discovery to explore the science involved in the Earth's weather. The exhibit, "The Magic School Bus Gets Weather Wise," and accompanying educational materials and programs will be bilingual in Spanish and English and will support national and Texas standards for science and mathematics learning for children aged 5-10. It is estimated that the exhibit and programs will serve 2,000,000 children and adults in 36 national venues over six (6) years. Weather Exploration Stations will precede the exhibit to encourage community engagement prior to the exhibit's arrival at the host venue. AMS scientists, local meteorologists and media weathercasters will assist visitor experiences and help museums with strategies for publicity campaigns and development of local programming. The visiting audiences of children and their families will learn meteorology is a study of weather, there are different types of weather, a variety of tools are used in predicting weather and the water cycle plays a role in weather events. Visitors will read data from maps, graphs, thermometers, anemometers, experiment with variables and model weather conditions using interactive exhibit components.
The Space Science Institute (SSI) seeks to develop the "Stardust Project," designed to introduce the public to concepts related to the birth of stars, the search for planets beyond our solar system and the search for life beyond earth. The project's three components include a 2,500 square-foot travelling exhibition called "Stardust: Our Search for Origins;" a comprehensive education program for museum staff and grades 4-9 school teachers and a public Web site that incorporates and builds on the exhibit and education content. The project proposes to assemble standards-based educational materials for dissemination through workshops conducted at museums that host the exhibit. The educational programs -- particularly professional development workshops for teachers -- target, among other groups, underserved Native American and Hispanic teachers associated with a partnership between SSI and the NSF Rural Systematic Initiatives in the American West. The project is built around strong partnerships with two NASA Origins Program missions and with established informal education institutions including the New York Hall of Science, the Lawrence Hall of Science, the Denver Museum of Nature and Science, TERC and the SETI Institute. Its goals are to make it possible for teachers, students and the public to learn about: The formation of stars, planets, and the solar system; The conditions necessary for life; The effect of life on Earth's environment; The methods used to detect planets orbiting distant stars and The scientific tools used in origin research -- from space-based telescopes to microscopes.
This Communicating Research to Public Audiences proposal is based on current NSF-funded research, AST 0607505, "Asteroid Satellites and Spins." Finding NEO (near-Earth Objects) proposes an 18-month-long project to develop on-line and museum traveling exhibit-module deliverables that provide users with both video vignettes of amateur astronomers engaged in NEO asteroid studies and at least three interactive game-like experiences on the science content and processes, specifically the analysis of "lightcurves," i.e., changes in light reflectivity off of spinning asteroids. The staff of the Space Science Institute will create these products in partnership with four small science museums around the country (2 in CO, NY, WI). The on-line material will be user-accessed via current astronomy web sites that already are popular, for example, www.spaceweathercenter.org. The videos and software will be made freely available for download. All materials will be both in English and Spanish.
The New Mexico Museum of Natural History in Albuquerque will design and construct a 6,250 square foot permanent exhibit on the geology and biology of the intracontinental Cretaceous Period seacoast environment of New Mexico. Using more than 20 interactive exhibits as well as modern and extinct plant and animal species, visitors will experience and explore this ancient, yet familiar world and develop a sense of the relationships between past and present, living and dead, extinction and survival as well as the continuity of natural processes. The Museum will also construct related traveling exhibits for statewide display and install semi-permanent satellite exhibits in four communities that have relevant geologic and paleontologic resources. Exhibition designs will be based on formal and informal studies of exhibit effectiveness, systematic study of learning styles of visitors to the New Mexico Museum of Natural History, and interaction with schools throughout New Mexico. This new natural history museum has an impressive staff, a record of institutional development and of state-wide community service, and a clear plan for carrying out informal science education with regional themes that serve the varied populations of New Mexico. The museum presently receives about 375,000 visits a year, of which 70,000 are in organized school groups with 45% Hispanic and/or Native American children. There is a substantial outreach program and extensive relationships with teachers and schools throughout the region. This $1.6-million exhibit project is supported by $840,000 of state funds and $500,000 in private contributions. A National Science Foundation award of $298,886 for FY87 is recommended.
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TEAM MEMBERS:
Michael JuddCaren WaltJeffrey GottfriedDavid Gillette
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.
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.