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resource project Exhibitions
The Adler Planetarium & Astronomy Museum proposes to develop a 10,395 square foot permanent exhibition. Five major exhibit areas - The Milky Way; Billions and Billions; The Life Cycle of Stars; Properties of Stars; and The Dynamic Galaxy -will orient visitors to the Milky Way, and explore in detail the fascinating objects found within. Each gallery will represent different content areas, but there are several underlying connecting themes. 1. Science does not distract from the appreciation, beauty, and mystery of the Universe, but rather deepens it; 2. The universe is a vast, dynamic, evolving, and fascinating place, where we are always learning about new things; 3. We can organize our picture of the Universe in ways that help us understand its structure, and our place in it; 4. We can begin to understand the Universe through observation and interpretation; 5. Based on the fundamental laws of nature, there are some concepts that will help us to explain the phenomenons of the universe. The Adler's new exhibits and programs will reflect the principles and pedagogy articulated in the new National Science Education Standards. It will also be reflected in the national and local reform efforts such as the Urban Systemic Initiative. The Adler staff will collaborate with the Chicago Systemic Initiative of the Chicago Public Schools. The CSI teachers, parents, and students will be involved the program development and evaluation process through focus groups, working teams, and pilot testing activities on-site at the museum The project Principal Investigator (PI) Dr. Evalyn L. Gates received her Doctorate in Physics from Case Western Reserve University in 1990. Currently, she serves as Chair of the Astronomy Department at the Adler Planetarium and Astronomy Museum. Dr. Gates is a Research Scientist on the faculty in the Department of Astronomy and Astrophysics at The University of Chicago in Chicago, Illinois. In addition to the project team, a broad-based advisory comm ittee will serve as counsel to the project. Serving on the project advisory committee are: Minda Borun; Director of Research and Evaluation, The Franklin Institute Science Museum; Richard G. Kron, Ph.D., Director, Yerkes Observatory and on the faculty at The University of Chicago; Catherine A. Pilachowski, Ph.D., Kitt Peak National Observatory; Phillip M. Sadler, Ed.D. Harvard- Smithsonian Center for Astrophysics; James W. Thuran, Ph. D., The University of Chicago ; Melanie Wojtulewicz, M.A., the Chicago Public Schools; and Fahrad Y. Zadeh, Ph.D. Northwestern University.
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TEAM MEMBERS: Evalyn Gates
resource project Public Programs
During the 3 years of this project, 72 high school and middle school teachers and 36 students will work as members of atmospheric research teams studying each of ten airshed around the Portland, OR metropolitan area. Each summer's activities include a 4-week atmospheric interaction research course and a one-week air quality measurement campaign during a pollution episode. Transfer to the classroom is anticipated through action research projects during the academic year. An interactive webpage will enable all partners to access data, real time models of the atmosphere, and descriptions of the action research projects. A lead high school will serve as the Horizons-Air site for an airshed zone and will work collaboratively with four other middle/high schools, the Horizons-Met sites.
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TEAM MEMBERS: Linda George Daniel Johnson William Becker
resource project Exhibitions
The Center for Atmospheric and Space Sciences (CASS) at Augsburg College, in collaboration with the Science Museum of Minnesota, is developing three exhibit clusters on important weather and climate systems that affect our everyday lives. Each cluster will consist of a micro-computer-based exhibit that runs a mathematical model of the weather system, a supporting three-dimensional display that encapsulates the entire system, a physical interactive exhibit that teaches critical physical concepts, and a graphical environment that reinforces connections to visitors' personal knowledge and interests. The three weather systems that constitute the content of the exhibit will be selected from the following four options: mid-latitude cyclones and the weather they cause, the cycle of ice ages over the past million years, global warming and greenhouse gases, and physical features on the earth that have profound effects on local climates. These exhibit clusters will build on the previous interactive exhibit components developed by Augsburg College: Seasons, Winds, and Clouds. All three exhibit and program clusters will be designed so they can be placed in science and natural history museums nationwide. The computer models will be designed to run on common, inexpensive microcomputers and will be disseminated to museums, libraries, other public sites, and schools. The project content and educational design will be developed by the PI, William Jasperson, a Senior Research Scientist at CASS, working with two of his fellow Senior Research Scientists, David Venne and Anthony Hansen, and with Geanine Gregoire from the Department of Education at Augsburg College. J. Shipley Newlin and James Roe, will be responsible for exhibit design and development at the science museum.
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TEAM MEMBERS: William Jasperson J Newlin David Venne
resource project Media and Technology
The Science Museum of Minnesota (SMM) in collaboration with the Illinois State Museum (ISM), the St. Louis Science Center (SLSC), and the National Center for Supercomputing Applications(NCSA) at the University of Illinois in Champaign, Illinois, will form a museum consortium to develop two virtual reality interactive displays (River Pilot Simulator and Digital River Basin) and other web-based activities that focus on the Mississippi River. This group will be known as the Mississippi River Web Museum Consortium. Each museum will end up with both software modules that will lead visitors to the story of the River. The river's local presence will serve as an entry point for the visitors at each museum. The NCSA will contribute their access to and knowledge of powerful computer simulation, scientific visualization, and collaborations technologies that are usually restricted to research settings and rarely available to a museum audience or the general public. The Consortium will also develop a shared site on the WWW that will invite users to engage in guided inquiry that will deepen their understanding of the large, complex, and integrated river system. The science content underlying the project will include river hydrology and geomorphology, life sciences, environmental studies employing geographic information systems, and the physics of motion. The activities will address a number of the National Science Education Standards. Complementary programming linking these activities with formal education include a RiverWeb(tm) Posting Board and a RiverWeb(tm) Classroom Resource Guide.
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TEAM MEMBERS: Douglas Johnston
resource project Media and Technology
The Science Museum of Minnesota (SMM) in collaboration with the Illinois State Museum (ISM), the St. Louis Science Center (SLSC), and the National Center for Supercomputing Applications(NCSA) at the University of Illinois in Champaign, Illinois, will form a museum consortium to develop two virtual reality interactive displays (River Pilot Simulator and Digital River Basin) and other web-based activities that focus on the Mississippi River. This group will be known as the Mississippi River Web Museum Consortium. Each museum will end up with both software modules that will lead visitors to the story of the River. The river's local presence will serve as an entry point for the visitors at each museum. The NCSA will contribute their access to and knowledge of powerful computer simulation, scientific visualization, and collaborations technologies that are usually restricted to research settings and rarely available to a museum audience or the general public. The Consortium will also develop a shared site on the WWW that will invite users to engage in guided inquiry that will deepen their understanding of the large, complex, and integrated river system. The science content underlying the project will include river hydrology and geomorphology, life sciences, environmental studies employing geographic information systems, and the physics of motion. The activities will address a number of the National Science Education Standards. Complementary programming linking these activities with formal education include a RiverWeb(tm) Posting Board and a RiverWeb(tm) Classroom Resource Guide.
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TEAM MEMBERS: Patrick Hamilton