This project brings real scientific research into the public domain by establishing a research laboratory in a museum setting where visitors not only enroll in the study, they help shape it through their work as citizen scientists. Findings from the study will increase the public understanding of how genetic research translates into meaningful personal information that can be used to better understand personal health risks and opportunities. In a community-based participatory research laboratory, school-aged children and their families will participate in an authentic research project on the genetics of taste. In a series of simple but highly specific taste tests, participants will learn which gene variations they possess and how these variations influence how they taste foods. Taste function has been increasingly linked to human health, in that variability in taste sensation correlates with, and may in part be causal for, major health problems, including cardiovascular disease and obesity. Interactive exhibit components will inform participants about the scientific process, the principles of genetics, the human genome project and genetic variation. Teaching the public about their genetic profile and its influence on taste may have a positive impact on major health threats such as cardiovascular disease and obesity. The data collected from museum visitors who choose to enroll in the study will be sent to the museum's academic partners for further analysis and inclusion in their ongoing research analysis and publications. This laboratory experience not only engages and educates the public, but also advances the research enterprise and offers a vivid model for how to translate research into the public domain.
This project will introduce students ages 8-14, including underserved students; their teachers and families; and the general public to three biomedical research areas inspired by NIH's Roadmap for Medical Research: biological pathways, bioinformatics and nanomedicine. These areas are unfamiliar to many adults and are not introduced in science curricula. Using the metaphor of a hardware store (i.e., building materials, tools, parts, home repair projects), the project will introduce families, students and teachers to three ideas: (1) The body maintains and repairs itself at the molecular, cell, tissue, organ and system levels; (2) Biomedical researchers are uncovering new complexities at the molecular level that can increase our understanding of how the body works; and (3) Developments in nanomedicine can lead to discoveries and treatments. In a hardware store theater and workshop space and in a virtual hardware store, the project will develop and present demonstrations and basic- and intermediate-level labs (for 2nd- and 6th-grade students or families); train museum staff and interns to present the programs; offer orientation workshops to teachers from Title I schools; develop a teacher's guide; conduct outreach in middle schools; engage scientists to talk about their work and help them communicate with the public; and create a manual of materials and activities for other science centers. The evaluation plan will include formative research on activities and assessment of how well repair metaphors facilitate understanding of clinical issues. A team of scientists, museum staff, science teachers, and biology and medical students will guide the development of education components.
This book offers museum learning researchers and practitioners--educators, explainers, and exhibit developers--a new approach for fostering group inquiry at interactive science exhibits. The Juicy Question game, developed at the Exploratorium in San Francisco, engages group members in a simple process of inquiry that helps them work together interrogate exhibit phenomena more deeply. and widens their both families and student field trip groups. The approach is easy to implement and yields clear results. The results are summarized in a set of practice principles that can be used by other
As a result of a request to expand the Daily Schedule to include all activities at COSI, the Daily Schedule is being redesigned. The purpose of the test is to help COSI determine the best design for a new, larger schedule based on input from guests.