In this paper, researchers from the University of Florida discuss the cognitive movement in instruction, which has major implications for research and practice in informal settings. The authors focus on a number of promising cognitive lines of inquiry and suggest their application in informal settings.
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TEAM MEMBERS:
John J. Koran, Jr.Mary Lou KoranJohn Scott Foster
In this brief article, Ruth Freeman summarizes a report of ongoing evaluation efforts of the effectiveness of the Discovery Gallery at the Royal Ontario Museum.
In this article, University of Wisconsin-Milwaukee researchers Dawn D' Amico and Wendy Pokorny discuss findings from their study that investigated the impact of a museum visit on preconceived notions of scientific explanation. D' Amico and Pokorny found that visitors' preconceptions were unlikely to change as a result of viewing exhibits.
In this article, Albert Ndayitwayeko, AFGRAD Fellow at the University of Florida, and John J. Koran, Jr., Professor and Curator at the Florida Museum of Natural History, analyze the informal education field in the Republic of Burundi, a small country located in Central Africa. This discussion focuses on natural history museums and zoos, their exhibits and visitor behavior, which may serve as a valuable and less expensive adjunct to formal learning.
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TEAM MEMBERS:
Albert NdayitwayekoJohn J. Koran, Jr.
Produce an exhibition that will lead visitors, particularly 140,000 school children each year, to explore and understand modern audio technology. The exhibition capitalizes on the great popularity of recorded music (every student seems to carry a Walkman tape or disc player), to encourage hands-on exploration of audio technologies from microphones to compact disc players. Further visitor inquiry, using a computer-based system developed by the Hall of Science, will encourage an understanding of the underlying principles. The prototype of this "Science Link" system, now in use, has already drawn replication inquiries from 84 science-technology centers, educational institutions, and advertising agencies. Develop additional exhibit techniques that will allow the hands-on investigation of phenomena that cannot be directly observed. Techniques linking computer simulations directly to the physical exhibits will encourage investigation of phenomena that cannot be directly observed. While contemporary electronic technology has become more and more pervasive, its inner workings have become less and less accessible to the layman. In addressing audio technology as typical of this challenge, the project will have applications to many fundamental and applied topics, and will find wide use in science centers and other settings.
The National Science Outreach Network will provide school children, teachers, and the general public with highly accessible interactive exhibits dealing with popular topics in science and technology. The network, initiated as a partnership between regional science centers and public libraries, will be modeled after the highly successful statewide Oregon Library Exhibits Network established in 1987. Through this smaller network, the Oregon Museum of Science and Industry, a nationally recognized pioneer in science exhibitry and outreach programming, circulates small hands-on exhibits to rural population centers through installations in public libraries, where school groups and families have free and convenient access. This national dissemination project will be initiated in five regional sites across the country (Colorado, Minnesota, New York, Tennessee, and Oregon) to further establish the model in rural, inner-urban, economically disadvantaged, and culturally diverse regions. With support from both the NSF and the regional networks, The National Science Outreach Network will design and duplicate six exhibits for circulation to dozens of local communities in each designated region. Over the next seven years, over six million individuals, many of whom do not currently frequent a local science center, will be introduced to popular science in a non-threatening, resource- rich setting. This will encourage further exploration and possible future visits to an accessible science center, and ultimately establish an ever-expanding network of museum and non-museum partners providing science and technology learning opportunities to millions of individuals each year.
The Computer Museum proposes to initiate a Computer Exhibits Kits Program whose goal will be to foster a better understanding of computer science and technology among the general public. The program proposes to develop and disseminate nine different kits, each consisting of a computer program, documentation, educational materials and, in some cases, specialized hardware. Other museums and science centers will be able to purchase these well tested kits at modest cost and implement them on personal computers to create exhibits for visitors ten years old and older. Strong support from other institutions suggests that the program will reach twenty million visitors a year.
The Franklin Institute Science Museum, a major American Science Center serving more than 700,000 individuals annually, proposes to create a 3,700 square foot permanent exhibition that will promote public interest in and understanding of the concepts and principles of mathematics in concrete, tangible form. The exhibition will consist of five clusters of hands-on devices, interactive computer programs, models, and text on the themes of Geometry; Symmetry; Chance, Probability and Randomness; Series, Sequences and Limits; and "Modern Math"--Fractals, Knots and Braids and Topology. Museum staff will utilize several mathematicians as advisors and design participants and will develop adjunct educational materials for use by teachers, students, and family members. They will disseminate exhibition techniques and content by providing six collaborating museums with selected copies of exhibit devices and hardware for their use in developing temporary or permanent mathematics exhibits. Staff of the six museums will join advisors for a design conference during exhibition planning, and will provide evaluation reports on their use of the exhibit materials. Knowledge of mathematics is not only necessary for everyday life; it is central to public understanding of science and engineering, and a key to continued participation in science and engineering, and a key to continued participation in science education in high school and college. Increasing national interest improvement in the mathematical ability of americans at all levels, pre-college and college, make this proposed exhibition particularly timely.
The Lawrence Hall of Science proposes to develop two 1400 square foot interactive exhibitions based on the latest research findings on the structure and function of the human brain; one for permanent display at the Hall, and one for circulation to 12 science museums over a five year period. The exhibition will use large scale models and equipment from two television programs on the brain. Substantial input from scientists and psychologists will be combined with the educational expertise of curriculum development, museum, and design staff from the Lawrence Hall of Science to create the exhibitions. Visitor and school related curriculum materials will be developed, including a video library and an auditorium show for large group school use. The Lawrence Hall of Science has more than 300,000 visitors per year and is a major science education research and development facility; the twelve host museums will reflect museums in both large and medium sized cities well distributed geographically. More than three million people will view the exhibits over a five year period. The topic is timely, the treatment substantive and educational, and the qualifications of staff and advisors high. The re-use and relationship to a major television series, "The Brain", is an ingenious and effective strategy. The Lawrence Hall of Science is matching the National Science Foundation contribution with comparable private funds. A 24-month FY87 award of $ is recommended.
The American Museum of Natural History proposes to design and build a new permanent 9,000-square-foot Hall of Human Biology and Evolution over a three-year period. The exhibit is to start out with human biology and then move smoothly to human evolution and the fossil record and other evidences of early humans. The new exhibit will range from the molecular/genetic level to the emergence of human beings, and will include archeological excavations and findings, reconstruction and discussion of humanoids, early human evolution, human structure and function, and human diversity. In addition to stimulating the interests of visitors (2.7 million in 1986-87) in human biology and evolution through the use of traditional and interactive technology, the new exhibit program will provide curriculum supplement for elementary and high school classes and teacher-training guides and workshops to assist in the integration of the exhibition materials into classroom studies. The primary educational goal is to give the widest possible audience a concrete sense of where and how the human animal fits in the natural world through examination of the traits that we share with all creatures and those that are peculiar to humans. The exhibit promises further contribution by bridging the current exhibits on animal life and those on the rich ethnological collections on the diversity of human cultures. NSF dollars are to cover the costs only of planning, building and evaluating the exhibit, with no funds for staff.
The Museum of Science will design and produce an exhibition, "Two of Every Sort", whose aim is to present a scientific basis for the public's understanding of genser, reproduction and human diversity. Using interactive techniques and state-of-the-art media technology, the exhibition will debut at the Museum in Boston, tour science centers in seven other cities and reach an audience of nearly 2.5 million. The eight museums are members of the Science Museum Exhibit Collaborative, which has approved "Two of Every Sort" as one of a second round of shared-cost exhibitions scheduled to appear at each of the member institutions. "Two of Every Sort" (4,000 square feet) will present introductory scientific overview, ranging among biology, anthropology, botany and biomedical technology, to make discussion of these difficult and sensitive matters more meaningful. The exhibit will offer an unusual opportunity to millions of people -- families, teachers and youngsters, to consider complex questions in a safe, friendly learning environment.
The Educational Film Center, in collaboration with Dr. Roald Hoffmann, Nobel Laureate and John A. Newman, Professor of Physical Science at Cornell University, will produce THE MOLECULAR WORLD, a series of three one-hour specials for Public Television. The specials will outline this "century of synthesis," the historical contribution of chemistry to our everyday lives. They will further highlight the future impact of chemistry on new materials for transportation and communication, and ont he rational design of effective medicines. The programs respond to the need for public awareness about the molecular and chemical make-up of the natural world around us and within us. The public also needs to appreciate better the continuing role of chemistry in producing the new molecules which change our world. THE MOLECULAR WORLD is designed for a national television audience complementing the recently completed college telecourse "The World of Chemistry" and its High School adaptations. The National Science Foundation award constitutes 15% of the total cost of the project.