The Louisville Science Center will develop "'The World We Create' -- a Traveling Exhibit." This project will develop two traveling version exhibitions (approximately 2,500 sq. ft. each) based on the programs of the highly successful permanent 12,500 sq. ft. exhibition "The World We Create," funded by NSF. One exhibit copy will travel nationally to small and medium-sized science centers throughout the United States over a three-year period, filling a need for quality traveling exhibits and reaching an audience of 300,000 to 500,000 people. The second exhibit copy will travel to rural areas of Kentucky to be hosted by schools, public libraries or community colleges, reaching an audience of 150,000 to 200,000 students and adults.
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TEAM MEMBERS:
Theresa MatteiGail BeckerNancy Potoczak
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.
This comprehensive ITEST project would provide sixty middle and high school teachers with an introduction to Geographic Information System (GIS) and Global Positioning System (GPS) technologies. The project, which brings together a leadership team of educators, science researchers and experts in resource management, is based at the University of Maryland Center for Environmental Science Appalachian Laboratory, a research facility that studies stream and forest ecosystems. The program will focus on environmental applications in which teachers use probes to investigate the properties of local forest and stream ecosystems. Teachers will apply their technology experiences to creating standards based lessons aligned with local curricula. The teacher participants will be recruited from rural, underserved Appalachian communities in western Maryland and northern West Virginia. Local students will be recruited to participate in a four-day summer session that includes field-testing the proposed lessons and learning about career opportunities in information technology.
Michigan Technological University will collaborate with David Heil and Associates to implement the Family Engineering Program, working in conjunction with student chapters of engineering societies such as the American Society for Engineering Education (ASEE), the Society of Hispanic Professionals (SHP) and a host of youth and community organizations. The Family Engineering Program is designed to increase technological literacy by introducing children ages 5-12 and their parents/caregivers to the field of engineering using the principles of design. The project will reach socio-economically diverse audiences in the upper peninsula of Michigan including Native American, Hispanic, Asian, and African American families. The secondary audience includes university STEM majors, informal science educators, and STEM professionals that are trained to deliver the program to families. A well-researched five step engineering design process utilized in the school-based Engineering is Elementary curriculum will be incorporated into mini design challenges and activities based in a variety of fields such as agricultural, chemical, environmental, and biomedical engineering. Deliverables include the Family Engineering event model, Family Engineering Activity Guide, Family Engineering Nights, project website, and facilitator training workshops. The activity guide will be pilot tested, field tested, and disseminated for use in urban, suburban, and rural settings. Strategic impact will result from the development of content-rich engineering activities for families and the dissemination of a project model that incorporates the expertise of engineering and educational professionals at multiple levels of implementation. It is anticipated that 300 facilitators and 7,000-10,000 parents and children will be directly impacted by this effort, while facilitator training may result in more than 27,000 program participants.
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TEAM MEMBERS:
Neil HutzlerEric IversenChristine CunninghamJoan ChaddeDavid Heil
This project will develop a new 4-H Afterschool curriculum called Discovering Technology to be implemented in 7 states potentially reaching 5000 middle school youths and 250 4-H leaders annually. The program would encourage youth in both rural and urban settings to pursue careers in engineering and technology. The project is a partnership of the Pratt School of Engineering at Duke University, the National 4-H Council/4-H Afterschool, North Carolina 4-H and the National Science & Technology Education Partnership (NSTEP).
The Anchorage Museum of History and Art, working with the Calista Elders Council, will develop a 5,000 sq ft traveling exhibition presenting 19th-century Yup'ik Eskimo technologies, their contemporary applications, and the underlying scientific processes. Featuring Yup'ik artifacts, it will integrate indigenous knowledge into the teaching of basic science principles as well as demonstrate the role played by science in everyday life. The exhibition will be organized around seasonal activities practiced in the past and retaining modern relevance. The Oregon Museum of Science and Industry (OMSI) will develop the comparative exhibits on modern science and technology, and the Imaginarium will develop complementary educational programming. Primary audiences will include rural Alaska Natives, both youth and elders, non-Native Alaska residents and visitors, as well as venues outside Alaska. By demonstrating how indigenous knowledge can be related to modern science, this exhibition provides a model for the informal science education field on how to incorporate cultural aspects of their own communities into museum exhibitions and programs. In addition, it demonstrates how artifacts and hands-on science activities can be combined effectively to create engaging educational experiences.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This project will develop and study a cyber-enhanced informal learning environment to improve observational practices and classification skills among citizen scientists. The project will focus on the taxonomic identification skills needed by volunteers to provide high-quality data for water quality monitoring of local streams, lakes, estuaries, wetlands, and ground water resources. To make the task of identifying freshwater insects easier and more engaging, the project will develop an innovative educational resource, the Macroinvertebrate Identification Training Environment, that will use zoomable high-resolution images, interactive media, and annotations of diagnostic features to improve perceptual skills. The goal is to increase the confidence and accuracy of volunteers engaged in identification tasks, while also increasing the reliability and quality of the data they are generating for purposes of scientific research and conservation efforts. This interdisciplinary design research and development project will use networked gigapixel image technology to create a visual environment where users can move seamlessly from full panoramic views of macroinvertebrates to extreme close-ups, with embedded text, images, graphics, audio, and video at various locations and zoom levels. This system will be developed in concert with a cognitive apprenticeship training model designed through a series of design studies. The design studies will be conducted over a two-year period and will include examination of the distinguishing features of various biomonitoring programs, reviews of existing training materials and strategies, expert performance analysis of professional entomologists, and development of user interface features. Project developers will collaborate with five regional volunteer biomonitoring organizations to engage a diverse set of volunteers in the design process, including rural populations, older adults, urban youth, and the trainers who support them. The project work will consist of four integrated strands of activity: design-based learning research, creation of an entomological teaching collection, cyberplatform development, and the external evaluation of the training system. The resulting Macroinvertebrate Identification Training Environment will be evaluated in terms of its impacts on volunteer accuracy, confidence, and engagement in taxonomic classification activities related to macroinvertebrates. The impacts of the learning system on trainers and volunteer biomonitoring organizations will also be examined.
STAR_Net brings inquiry-based STEM1 learning experiences to public libraries through two traveling exhibits, associated programming for library patrons, and a virtual community of practice for library staff and others who are interested in bringing STEM programming to libraries. In 2010, the National Science Foundation (NSF) awarded a three-year grant to the Space Science Institute’s (SSI) National Center for Interactive Learning (NCIL) and its partners—the American Library Association (ALA), the Lunar and Planetary Institute (LPI), and the National Girls Collaborative Project (NGCP)—to