The Tech Museum of Innovation will fabricate, install, and evaluate a 6,800 square foot exhibition. Through approximately 66 interactive exhibit experiences, visitors will discover how basic science is applied in practical, real-life circumstances for the design and engineering of advanced technologies. An array of educational programs has been designed to appeal to a diverse audience with a variety of interests and learning styles. Demonstrations, hands-on activities, and interviews (online and/or multimedia) with nationally recognized innovators will highlight innovation as a complex process involving careful preparation, use of the scientific method, the ability to problem solve and make connections, and luck.
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TEAM MEMBERS:
Dan WodarcykJon BetthauserEmily RoutmanSusan WagemanWayne LaBar
The Sciencenter will develop Tech City Exhibition, a 2500 sq. ft. traveling exhibit that will promote awareness of engineering as a process and a career. The exhibit will consist of a set of twelve interactive exhibit stations presenting design tasks from various fields of engineering related to the human needs of a hypothetical community called "Tech City." The tasks will use engineering as an iterative process to meet design goals (e.g. building a structure strong enough to withstand an earthquake) while faced with constraints (e.g. a limited budget.) The primary audience will be youth in their late elementary and middle school years with a specific emphasis on women and other groups traditionally underrepresented in engineering. A broad menu of complementary activities will be developed that includes a hands-on program for visiting school groups, a teacher training technology unit, career speakers' bureau, "Engineering Day at the Mall" program, and activities especially created for families. The Association of Science and Technology Centers will manage the national tour of the exhibit. It is schedule to circulate for three years and reach an estimated one million individuals.
The Oregon Museum of Science and Industry (OMSI) will develop Engineer It! Dissemination of a Successful Multiple Outcome Exhibition. This will be a 5000 sq. ft. traveling exhibit based on their NSF supported exhibit Engineer It! that opened as a permanent exhibit at OMSI in 1994. The exhibit presents visitors with an environment rich in opportunities to design, engineer, and test structures in three testing areas focusing on water, structures, and wind. Visitors will learn basic engineering principles through experimentation by designing boats, buildings, bridges, cranes, windmills, and paper airplanes among other things. Supporting components include training workshops for host museums on how to most effectively use the experimental environment of the exhibit, a Teacher's Guide, take-home activities, and a web page. The primary audience is the general museum visitor which includes many families, and elementary school students. Careful attention will be given to the development of family friendly exhibit text that will help adults understand how children learn from developmentally appropriate hands-on activities and how they can support that learning through adult-child interaction. The content of the exhibit is in synchrony with national science standards.
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TEAM MEMBERS:
Raymond VandiverJan DabrowskiNancy Stueber
The Maryland Science Center is planning a nationwide, traveling exhibit that would examine the scientific investigations and findings related to how and why the Titanic sank. During this planning phase for the project, two of the Maryland Science Center staff would participate in an upcoming scientific expedition to study the Titanic. They will be able to closely follow the work of the Marine Forensics Panel of the Society of Naval Architects and Marine Engineers in order to understand more thoroughly the scientific processes and principles involved. The museum staff also will refine the design of the exhibit and test prototype exhibit components, themes, styles, and presentation of science.
The New York Hall of Science is in the process of designing and constructing a 50,000 sq. ft. facility addition. This project, which could also be called project BUILD: Building Underway-Informal Learning Design, will take advantage of the inherent teaching and learning opportunities in science and engineering found in an authentic, real-time setting. A portable exhibit unit, fashioned after a construction-site fence with peepholes, will highlight aspects of technology, math, engineering, and materials sciences found in the building trades and architecture. Each peephole will display an artifact, text, image or interactive for the visitor and have specific learning outcomes defined during the development of the exhibit. Associated programing, in the form of Explainer demostrations, workshops, lectures, building trades career days, design, and hard hat tours will be created for three distinct audiences -- families, adolescents 11-14 (middle-school) and young adults 15-18 (high school). The exhibit and programs will evolve and amend themselves in tandem with the changeable timetables and nature of construction. Finally, a guidebook written on "how to" replicate these learning experiences, construct the exhibit fence for other venues, and partner with architects and tradespeople will be available to the wider museum and informal learning community.
The Maryland Science Center requests $1,586,279 to develop "Titanic Science." The Maryland Science Center will develop an 8,000-square foot interactive traveling exhibition focusing on recent scientific and forensic investigations surrounding the Titanic tragedy of 1912. A planning grant from NSF enabled key personnel to participate in the five-week 1998 scientific expedition to the Titanic wreck site and interact with professional scientists. This expedition will target the general public and provide educational services for students in grades 6-9. The exhibition will travel to 15 host sites and be seen by over 2.5 million visitors. To help parents and educators make the most of this exhibition, a Titanic Explorers Kit and teachers guides will be developed.
The Education Development Center, Incorporated, requests $2,081,018 to create informal learning opportunities in science, mathematics, engineering and technology utilizing the study of the ancient African civilization of Nubia as context. Educational activities and resources will be developed based on the extensive ongoing archeological research on historical Nubia. The two main components of the project are a traveling exhibit with related educational materials and a website that will provide the target audience an opportunity to access extensive on-line resources and activities. The project will provide community outreach and professional development for educators in museums, community groups, schools and libraries. The project is designed for thirty-six months' duration. In year one, a network of collaborators in the Boston area will focus on research and development; in year two, project materials will be piloted and evaluated in six cities, and on-line professional development programs will be conducted; and in year three, project materials will be disseminated directly to 60 sites and more broadly via the internet.
This Communicating Research to Public Audiences project is based on NSF-CCLI-EMD, 0341143, Development of a Smart Vibration Platform Experiment. The 24-month-long project is part of a continuing collaboration between the PI at the University of Houston and the staff of the Children's Museum of Houston (CMH). CMH is in the process of developing an exhibition on "smart materials," and has a stepwise exhibit development plan that involves the PI and his engineering students. The project work is adapting a device on the vibration dampening effect of magneto-rheological (MR) fluids from an educational application in an undergraduate mechanical engineering environment to a museum exhibit for ages 8+. MR fluids have the unusual property of being able to transform from the liquid state to a semi-solid state when subjected to magnetic fields. They are being used in the design of buildings in earthquake prone areas. The development team consists of the PI and college seniors in their Senior Capstone Design course, an education program evaluator at the University, and exhibits and program staff from the museum. Deliverables include a smart materials "earthquake dampening" exhibit and a touch-screen activated "video jukebox" unit on the research scientists and students and on the MR fluid. The CMH Kids' Committee is providing input on the exhibits as well.
"How Things Fly" is a major new exhibit gallery being produced by the National Air and Space Museum and is scheduled to open in 1995. The goal of this permanent exhibition is to convey, to the broadest possible audience, the essential principles by which aircraft and spacecraft fly. "How Things Fly" represents an important departure from other exhibitions at the Museum in both content and execution. Instead of relying on static displays of historical artifacts, "How Things Fly" will use interactive devices and live demonstrations designedto spark curiosity, invite visitor participation, and provide children and adults with the opportunity to discover for themselves answers to some of their fundamental questions about flight. "How Things Fly" will be the first major exhibiton at the Museum devoted entirely to hands-on learning. It will incorporate some of the best interactive exhibitry ideas from othermuseums, improve upon them where possible, and include a substantial number of original exhibits. While intended to help visitors more fully appreciate the Museum's collection, the cooperative efforts, such as publications, a traveling exhibition, and educational outreach programs, will extend the exhibition's impact across the nation.
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TEAM MEMBERS:
Barbara BrennanSteven SoterChristopher StetserDavid RomanowskiJoann Hinkel
The Ann Arbor Hands-On Museum is requesting $370,728 to create a traveling exhibit entitled "How Things Work, which will familiarize students and the general public with the science and engineering behind 15-20 "gadgets" which play vital roles in their everyday lives. A number of the exhibit elements will be based on the work of Dr. Richard Crane. Ancillary materials will be developed for classroom teachers as part of school outreach. An Exhibition Resource Guide will be developed for use by other museum venues, as well as teachers, students and others.
The Science Museum of Minnesota will develop "Buildings: A Traveling Exhibit and Permanent Installation with Education and Outreach Programs". This is a multifaceted project that includes a 5,000 sq. ft. exhibit that will explore the science, technology, and human perception of buildings. The exhibit will tell three stories: 1) buildings must obey physical laws to stay up, 2) buildings are complex operating systems, and 3) buildings reflect and shape the societies that create them. The exhibit will initially be developed as a traveling exhibit that will circulate among the member institutions of the Science Museum Exhibit Collaborative (8 institutions) and then it will be reinstalled in the new SMM $77 million building. Additional partners collaborating on this project include the National Building Museum, the Society of Building Science Educators, Habitat for Humanity International, The ReUse Center, the Vital Signs Program and the Center for City Building Education. Special attention will be given to reaching girls and women and the physically challenged. A broad menu of public programming is planned and school-linked materials will be developed.
The Oregon Museum of Science and Industry (OMSI) is a progressive science and technology center. Its philosophy toward science education is to make it enticing, enjoyable and motivating. It accomplishes this by means of "hands-on", interactive exhibits and programs designed to provide a non- threatening learning environment, for which we are recognized nationally. OMSI recognizes the important national need to assist the public in understanding and being comfortable with advances in, and methodology of applied science. It proposes to design and build a large exhibit that promotes problem solving using engineering principles. The exhibit will pose problems, offer basic information for the solution and provide a variety of tools and building materials from which the visitor can choose. The visitor then devises one or several possible solutions, and constructs a prototype to be tested in one of three large scale testing laboratories. The engineering fields addressed are aeronautical, mechanical and civil. Our visitors will come away from the exhibit with an increased appreciation for the way engineering is done and how solutions affect their lives. OMSI is requesting $577,324 from the National Science Foundation as well as $427,539 from the Port of Portland to design and build this exhibit. The Port of Portland is interested in demonstrating how its commercial activities relate to engineering. OMSI plans to disseminate information about the exhibit to educators and other museums on a national level.