The Exploratorium is developing a model program that demonstrates the vital role science museum exhibits can play in supporting formal science education reform. The development of exhibitions and enhancement activities is based on the Science Framework for California Public Schools and the emerging National Science Education Standards. The project includes: A series of four museum exhibitions (with a total of 60 exhibits) based on the Science Framework themes of Patterns of Change, Stability, Scale and Structure, and Systems and Interactions Publications (Exhibit Guides and Pathways) for each collection A series of workshops and evening events for teachers, families and students A symposium, video and Internet resource for museum and education professionals An important feature is an information desk and resource kiosk to inform teachers, parents and the general public about science education reform efforts. The project aims at 5,000 teachers, 32,000 parents and caregivers, 140,000 students and 1,320,000 members of the general public.
The Family Science Learning Project is comprised of a research study and subsequent program development designed to fundamentally improve family science learning in museums. The endeavor will be carried out in the Philadelphia area by PISEC, a partnership of The Academy of Natural Sciences, The Franklin Institute, the Thomas H. Kean New Jersey State Aquarium at Camden and the Philadelphia Zoo, joined for this project by the University of the Arts. To achieve the goal of fostering science literacy by encouraging families to engage in successful learning strategies while visiting science museums, PISEC has identified the following objectives for the project: - To increase understanding of the processes and potential of science museum-based family learning. - To apply this understanding to the development and implementation of effective program and exhibit enhancements in four science museums. - To involve existing staff so that evaluation and research become an ongoing component of program and exhibit development in the participating museums. - To utilize a multi-institution team approach designed to maximize impact, be cost-effective and be replicable in other regions across the country. The project has three phases. First, a research study using ethnographic data collection and focus groups will be conducted at the participating museums. This study will lead to the formulation of a set of criteria for successful family science learning and hypotheses about what is needed to facilitate this behavior. Second, utilizing these findings, the four institutions will develop four distinct programs and/or exhibit enhancements designed to foster positive family learning experiences. Formative evaluation and inter-museum collaborative will be integral parts of this process. Finally, the summative findings of the individual efforts will be compared to look for constants in successful programming across the sites. Results will be assembled in a handbook which will be widely disseminated to the field. In carrying out this study, the project will fill in the body of existing museum-based family learning research. The knowledge gained will give science museum professionals a new set of tools which can be used to increase the frequency of positive learning experiences in their facilities, and to broaden the diversity of visiting families as well. Because the subject matter under investigation represents a wide range of scientific disciplines, the results of the projects should prove applicable to many different types of informal science learning environments, including science centers, natural history museums, zoos, aquariums and botanic gardens. The collaborative nature of the project will serve as a model for similar partnerships among cultural institutions and universities in other large metropolitan areas.
The New York Hall of Science requests $829,312 over four years to develop and circulate a traveling version of "Hidden Kindoms - The World of York Hall of Science in April, 1991. The traveling version will consist of: an introductory panel; 16 Easy-View microscopes exhibiting living microbes; units dealing with size, scale and magnification; two interactive computer programs entitled "Understanding AIDS" and "How Your Body Fights Disease"; a video microscope for the Microscopic Life demonstration; units on virusesand bacteria; a mosaic of color transparencies of different microorganisms; one Optech (BYOB) interactive video microscope; three zoetropes illustrating mcrobial movement; and a mini-laboratory room containing all the equipment and materials necessary for maintaining the exhibit and presenting the MICROLAB workshops to students and teachers. The 1,500 square foot exhibit will travel to nine sites over three years. The new York Hall of Science will provide on-site training in estasblishing and maintaining the exhibit, a weekly shipment of microrganisms and supporting materials, an exhibit catalog, an 11-minute video featuring living microbes, pre- and post- visit materisla for schools with suggested activities , and programs for student and teacher workshops. A novel feature of this traveling exhibition will be the opportunity for the host museum to retain, on a cost-share basis, the mini- laboratory with its equipment and four Easy-View microscopes which can become the core of a microbiology program. Biology, Microbiology; Informal Science Education; Elementary, Middle and High School
Boston Museum of Science seeks funds from the National Science Foundation for the development of a group of interactive exhibits and educational programs that will comprise the Museum's permanent TESTING THE THEORY activity center. The project is part of a new approach to exhibits that aims to make the experiences available to visitors closer to the actual process of scientific discovery. Visitors will carry out experiments in fields ranging from chemistry and cognitive psychology, to statistics, optics, and materials science. The focus will be on promoting specific experimental skills and scientific habits of mind, and on encouraging the transfer of these skills to everyday activities. The exhibit techniques developed during the prototyping and production of TESTING THE THEORY are expected to be of importance to science museums and others concerned with increasing science literacy.
In the Fall of 1994 The New York Botanical Garden will begin its second 100 years of commitment to science education with the opening of the Children's Adventure Garden and the Children's Adventure Trails. As two components of the Children's Adventure Project , these informal science education facilities will use participatory discovery to engage urban children and their families in learning botanical science, inquiry skills, positive attitudes towards science, and the methods of scientists. In the 1.5 acre Adventure Garden children will interact with living plants and fabricated exhibits to discover fundamental principles of plant biology; and in the one mile of Adventure Trails they will closely observe interdependencies of complex ecosystems using the framework of these fundamental principles. To expand visitor understanding of plant biology and the ways that scientists study it, Investigation Stations, integral components of each facility, will be placed so that visitors will handle, sense, and observe living plants in situ and interact with fabricated exhibits and scientific tools. The Project will be developed by NYBG staff educators and scientists with on-going participation of a broad spectrum of advisors and consultants, including exhibition designers, evaluators, community school teachers, and environmental education specialists.
The Calvert Marine Museum will develop an exhibit and complementary programming interpreting the Miocene Age marine life. Treasure from the Cliffs: Exploring Marine Fossils will use the world famous fossils of Calvert Cliffs as the basis for the exhibit. It is their intention to convey a strong sense of the personal process of discovery and the creative component of scientific inquiry to the exhibit visitors. In their words, "The overriding purpose of Treasure from the Cliffs is to model a new paradigm for natural history exhibits: to take a humanistic and holistic approach that recognizes the centrality of imagination to the scientific enterprise, and that engages curiosity and creativity -- as well as intellect -- in the process of science learning." Upon entering the exhibit, a visitor's interest will be peeked by seeing the large, dramatically lit, fossil Great White Shark Tooth. Visitors will get involved in the wonder and process of science at the beginning of the exhibit in the Paleontology Office/Lab and Fossil Identification area. They will then move on to see a replicated section of the Calvert Cliffs and cases illustrating how fossil deposits form. Two recreated Miocene dioramas one of which will include a full-size skeletal reconstruction of the giant fossil Great White Shark come next. Visitors will then be able to investigate on their own in a reading station and a video and demonstration theater. Visitors will exit the exhibit after a section that shows how the modern Chesapeake Bay was formed. This leads them seamlessly into the museum's next exhibit hall Estuary Patuxent: A River and its Life. The museum will develop a series of complementary programs in association with this exhibit to reach a wider audience that will include formal educators among others. They will organize a speakers service, develop a fossil field guide, and produce a video about the Great White Shark.
DATE:
-
TEAM MEMBERS:
Michael GottfriedS. Curtis BowmanM. Lynne Warren
This is a comprehensive project about the science behind special effects in the motion pictures. WGBH, in association with eighteen museums in the Museum Film Network, will produce a 35 minute IMAX/OMNIMAX film showing the behind-the-scenes story of a group of filmmakers at Industrial Light and Magic (ILM) as they create a special effects sequence in the IMAX/OMNIMAX format. The film will illustrate how the eye and brain work together to process cinematic illusions. The California Museum of Science and Industry (CMSI) will create a 6,000 sq. ft. traveling exhibit that will focus on the science and technical processes of special effect. The exhibit will travel to fifteen other museums. A smaller scale lobby exhibit also will be developed for display in the cueing areas of IMAX/OMNIMAX theaters that are showing the "Special Effects" film. A collaborative educational outreach program will extend the reach of both the film and exhibit. The project will be managed by the NOVA production unit at WGBH under the direction of Paula Apsell. Ms. Apsell also will serve as Executive Producer for the IMAX/OMNIMAX film. Diane Perlov, Curator of Exhibitions at CMSI, will supervise the exhibit portion of the project. Kenneth Phillips, Curator of Aerospace Science at CMSI, will develop video interactives and oversee scientific content of the exhibit. Carol Valenta, Director of Education for CMSI, and Beth Kirsh, Director of Educational Print and Outreach for WGBH, will be responsible for implementing the outreach plan. Advisors for the project include David H. Hubel, neurobiologist, Harvard Medical School; Vilayanur S. Ramachandran, neurophysiologist, University of California, San Diego; Richard Gregory, perception psychologist, University of Bristol; Sally Duensing, Science and Museum Liaison, Exploratorium; Elizabeth Stage, Co-Director for Science, New Standards Project, National Center on Education and the Economy; and Robert Coutts, high school physics teacher, Los Angeles, CA.
DATE:
-
TEAM MEMBERS:
Paula ApsellSusanne SimpsonAnn MuscatCarol ValentaBarbara Flagg
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.
To provide the general public with an understanding of the basic principles that underlie the transmission, storage, and retrieval of information, the Fleet Center proposes to build SIGNALS, a 4,500 square foot exhibition. SIGNALS will be divided into three sections, of approximately 15 interactive exhibits each, which explore the physical principles of wave motion, the properties of electromagnetic pulses useful for communications, and the signal processing that enables us to handle information. An Advisory Committee comprised of highly qualified individuals at the leading edge of their fields will support development of SIGNALS; a very experienced team of exhibit developers will fabricate the exhibition. SIGNALS will become a permanent exhibition in an expanded Fleet Center, where it is expected to attract 1 million visitors a year, including at least 100,000 K-12 students. Since the lack of technological understanding is a national problem, we propose to build a 3,000 square foot traveling version of SIGNALS, contingent upon an NSF review of the completed permanent exhibition. The total cost for both exhibitions is $1,983,480. We are requesting $985,900 from NSF: $692,800 for the permanent exhibition and $293,100 for the traveling exhibition. The project will begin in June, 1992, and be completed by June, 1996.
The Science Museum of Connecticut (SMC) proposes a three- year exhibit project called The State of the Environment. This cost-effective project will serve over 500,000 citizens a year by producing two permanent exhibits - 2400 sf for SMC and 400 sf for SMD's Roaring Brook Nature Center -- and eight traveling exhibits for use primarily in connecticut's Priority schools. These innovative exhibits use highly accurate sculptural relief maps which are animated by laser graphics and responsive to visitor inquiries through a research-calibre database containing vast information on Connecticut's environment. Thorough evaluation will help SMC design visitor experiences that make map-database interaction attractive, easy to use and understand, and educationally satisfying. State accredited teacher workshops will give educators a firm grasp of database capabilities prior to its use in the traveling exhibits for schools. Traveling exhibits will support goals in Connecticut's NSF-funded Statewide Initiative. Teacher's Guides will facilitate in-dept investigations for high school science lessons. These exhibits will provide hands- on experiences with professional tools for environmental research, show how environmental maps are made, teach basic principles of environmental science, and provide-in-depth information about the ecology of an entire state.
The Science Center of Connecticut will develop, evaluate, and install 57 mathematical exhibit activities in its new 160,000 sq. ft. exhibit facility. These activities will engage visitors in learning how math is an integral part of daily life and a necessary skill in many careers. Eight math topics will be treated: probability and statistics; relative scale; geometry; symmetry; math puzzles; chaos and fractals; numbers, measurements, and calculations; and estimations. The hands-on activities will range from involvement with low-tech to high- tech, computerized activities. The target audience is people nine and up and it will be available to the museums 500,000 annual visitors. The mathematics activities will be distributed throughout the museum and math will serve as a integrating theme for all the museum's exhibits. The topics are aligned with Connecticut s SSI program which focuses on applied mathematics in context of the science disciplines. Within the state, plans are taking shape to link with Connecticut Public Television to broadcast electronic field trips to the museum through Knowledge Network. Nationally, museum staff members will make presentations at both museum and mathematics education meetings to other museum professionals. The concept of thematic integration throughout the museum will be disseminated through the state and the nation.
This exhibit will integrate graphics, artifacts, highly interactive electro-mechanical demonstration devices together with state of the art interactive educational computer technology to demonstrate how probability shapes nature. It will draw its examples from a variety of scientific fields including physics, chemistry, earth sciences, and biology. It is planned as a permanent addition to the Museum's exhibition program, but will be designed to facilitate easy reproduction for individual copies or for circulation as a travelling exhibit. Millions of visitors--families, teachers, children form diverse communities--will gain a first hand aesthetic appreciation of the pattern finding process of scientific investigation as well as a better understanding of the usefulness of mathematics in explaining how the natural world works.
DATE:
-
TEAM MEMBERS:
H. Eugene StanleyDouglas SmithEdwin Taylor