In this paper, researchers from Science Learning, Inc. discuss findings from an evaluation study that used interpretive carts to analyze visitor conversations. Researchers collected data using the "Rock Talk" cart to inform the redesign of the Geology, Gems & Minerals Hall at the Smithsonian's National Museum of Natural History.
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.
Under the Planning Grant Guidelines, the Arizona Science Center will explore "Using Narrative to Introduce Science Concepts to Diverse Audiences at a Science Center." By bringing together a group of experts to review key questions about the uses and structure of narrative, the staff of the science center will 1) develop a strategy and range of approaches to science storytelling, 2) develop ideas for story premises and texts to interest visitors representing diverse populations and including women, people in non-technical occupations and minority families, 3) conduct research to determine visitor's attitudes to these materials in order to learn about the appeal and effectiveness of the narratives. Finally, they will synthesize and broadly disseminate their findings. The discussion will be focused on a comprehensive set of 120 exhibits entitled "How We Live With The Sun." The topics include light and optics; heat, cooling, and convection; weather, electricity; and technologies for harnessing solar energy. These topics represent the physical science that underlies the way people adapt to the desert and the ways in which Arizonans have applied knowledge of science fundamentals to useful ends.