"Waters Journey through the Everglades" was funded to impact adolescents by increasing their awareness and their understanding of the relevance of the environment, specifically water, in South Florida. The deliverables were to design, develop and produce technology-based experiences enhancing a new EcoDiscovery wing at the Museum of Discovery and Science in Ft. Lauderdale, Florida. Appropriate use of emerging technology was a cornerstone of the project as the project team sought to research how the depth and breadth of hands-on exhibits could be expanded, allowing the target audience of adolescent learners to explore "what if?" questions around the learning experiences in the new museum wing. The ability to change parameters of the exhibits, to make individual choices that change the outcome of the experience, was seen as a way to create more excitement, more social discourse, and deeper understanding. Research questions revolved around the following areas: -Linking technology to the hands-on exhibits under design for the new MODS wing, and using them to expand the depth and breadth of the hands-on exhibits. -Using augmented reality in appropriate areas not to show phenomenon-based things (like a working heart for example) but as a narrative enhancement to spur exploratory investigation into changing parameters and understanding the consequences of actions. -Researching new ways to get content information to the learners at the appropriate time in their exploration so they are ready to receive the information, rather than putting large graphic panels to relate the content. Only an average of 3% of visitors read labels, and we know that 3% is largely skewed toward older adults. -Researching how to engage the adolescent audience in museum experiences. Educational impact on the target adolescent audience revolved around exploring whether the resulting exhibit enhancements would help them: Develop a greater awareness of how water impacts the environment, from the local to the global. -Gain a clearer concept of the time scales and scope of environmental change. -Raise their confidence level in their ability to understand the relevance of science as they explore the vast amount of scientific data that has been collected, and answer their own questions about the Florida Everglades™ rich and fragile ecosystem, and its importance to their own community.
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TEAM MEMBERS:
Eileen SmithKim CavendishCharles Hughes
ENERGY-NET (Energy, Environment and Society Learning Network) brings together the Carnegie Museum of Natural History (CMNH) with the learning science and geoscience research strengths at the University of Pittsburgh to create rich opportunities for participatory learning and public education in the arena of energy, the environment, and society using an Earth systems science framework. ENERGY-NET builds upon a long-established teen docent program at CMNH and forms Geoscience Squads comprised of underserved teens. Together, the ENERGY-NET team, including museum staff, experts in informal learning sciences, and geoscientists spanning career stage (undergraduates, graduate students, faculty) provides inquiry-based learning experiences guided by Earth systems science principles. Together, the team works with Geoscience Squads to design "Exploration Stations" for use with CMNH visitors that employ an Earth systems science framework to explore the intersecting lenses of energy, the environment, and society. The goals of ENERGY-NET are to: 1) Develop a rich set of experiential learning activities to enhance public knowledge about the complex dynamics between Energy, Environment, and Society for demonstration at CMNH; 2) Expand diversity in the geosciences workforce by mentoring underrepresented teens, providing authentic learning experiences in earth systems science and life skills, and providing networking opportunities with geoscientists; and 3) Institutionalize ENERGY-NET collaborations among geosciences expert, learning researchers, and museum staff to yield long-term improvements in public geoscience education and geoscience workforce recruiting.
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TEAM MEMBERS:
Carnegie-Mellon UniversityMary Ann SteinerEmily ElliotKevin CrowleyUniversity of Pittsburgh and Carnegie Museum of Natural History
The New York Hall of Science and Community School District #24 request $46,744 for a planning grant whose goal is to empower parents by bringing informal science and math education experiences to create a working team of parents, teachers, and museum staff to underserved, ethnically diverse students in their formative years, and their families. A major objective is to develop a framework for a science resource kit for home use by parents and children in grades K-3, and related parent training. The target audience is low income, minority, recently immigrated parents, with little to no involvement in their children's education. Parents from the target audience will serve on the Planning Team. The function of the kits is to provide exciting, intergenerational, exploratory experiences in math and science that are related to the school curriculum. Each kit will be designed to be completely portable and will appear to be a large trunk with wheels. Contents may include: a laptop-size computer; hand lenses and two small microscopes; diffraction gratings and flourescent sources; ramps and balls; mirrors, lenses and other optics.
This planning project, sponsored by Community School District #18 of the New York City Schools, will carry out planning activities intended to implement a district-wide parent involvement program as a supplement to the Science in the Seamless Day program currently in effect with NSF support. The planning activities will include day-long planning seminars with teachers and staff, ongoing planning sessions with parents, after school materials development sessions, travel to the Chicago TAMS project and travel to local science, math and technology resource institutions. The final proposal will include parent preparation and training activities, family "discovery" workshops, take-home activities and parent leadership development. The project staff will be helped by a wide variety of partners which have been active in district programs. The matching funds constitute about 10% of the NSF award.
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TEAM MEMBERS:
Barbara BergLorraine BarberIrene FortunatoHeidi Ludwig
The Institute for Research on Learning is undertaking a multifaceted effort to help parents become more involved in the mathematics education of their children. This project establishes a Design Consortium; develops new materials and collaborative activity structures; provides outreach, training, and technical assistance to communities; and disseminates these products to the educational community. The design consortium creates contexts for raising parent participation in communities where it is most needed and uses these contexts to plan and construct mathematics materials based on issues parents face in everyday life. The outreach activities include planning support and workshops for schools, community organizations, and parent groups. Dissemination is done through presentations and talks and through research articles.
In-Touch Science provides informal learning experiences to help children ages 8 to 11 understand the science in their everyday lives. Each science theme is introduced through a hands-on activity in one subject area and is reinforced through a second experience based in a different field of science. By linking concepts common to the paired fields, the program teaches children to make connections between what they've learned in one context and what they observe in another arena. The program targets children enrolled in special needs programs, 4-H clubs, school-age child care facilities, and home schooling. The program engages, supports and sustains community science facilitators, the majority of whom are not experienced educators. They will be trained to work with the children, using the Learning Cycle, a guided discovery strategy. Cornell developed the curricula for three paired disciplines: 1) Engineering and Plant Science, 2) Animal Science and Fiber Science, and 3) Chemistry and Environmental Science. Instructional materials for the project consist of three curricula, a facilitator-training guide, and supply kits.
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TEAM MEMBERS:
Charlotte CoffmanDan BrownDaniel Tennessen
The Developmental Studies Center is supporting the active involvement of parents in their children's mathematical development, helping parents understand more about how their children learn mathematically and socially, and increasing the likelihood that children will discuss mathematics with an adult who is significant in their lives. The first phase of this project develops, pilot tests, and evaluates a Homeside Math resource book for each grade level, K-2, with activities teachers can send home to foster positive interaction about mathematics between parents and their children. These activities are related to exemplary school curricula, particularly those developed with NSF support. The next phase develops a limited number of additional activities to add to the Homeside Math collection to be published as Community Math. Community Math is a resource book for youth workers with activities that foster mathematical discussions between children ages 5-8 and a significant adult and can be used in a variety of community organization settings and sent home for family use. Workshops are developed for parents, teachers, and youth workers to strengthen their knowledge of child-centered instructional strategies, meaningful activities, and how children develop mathematically and socially. And facilitator workshops are developed for parents, teachers, and youth workers to enable them to lead workshops for parents.
Museum of Science will develop a 4500 sq. ft. exhibit "Finding the Pattern". The primary objective is to develop activities and programs that encourage visitors to practice scientific thinking skills in settings that have interdisciplinary science content. The main component is an activity area that will encourage visitors to observe, compare, and sort objects and phenomena in meaningful ways; help visitors recognize that systems of organizing and classifying objects and phenomena reveal underlying meaning; provide visitors with opportunities to practice answering questions and solving problems based on museums collections; and encourage visitors to search for the "hidden" meaning in things around them. The exhibit will be composed of three overlapping areas: 1) the sorting area, 2) the mystery area, and 3) the open collections area. This project is one of the six science activity centers that have been described in the museum's long-range plan; two activity centers/exhibits have been completed. The impact of "Finding the Pattern" will be extended via the museum's web site. Activities that employ the kinds of scientific thinking skills targeted in the exhibit will be developed to engage informal learners at home. Complementary programming linking the exhibit with formal education will include the development of teacher workshops and programs for school groups. Teacher workshops will be developed in consultation with groups of Project PALMS teachers. The activities will be accessible to individuals with disabilities. They plan to open the exhibit in the fall of 2000.
Carnegie Mellon University is developing an interactive, multimedia planetarium presentation about the human brain. The interdisciplinary project team will build upon and refine the experience gained from its recently completed planetarium show, Journey Into the Living Cell. The context for this work is the need for increased public understanding of the human brain - an organ central to the very concept of humanity. The understanding of the human brain is located at the lively crossroads of research in many disciplines, including psychiatry, psychology, neuroscience, computer science and biology. The proposed medium to address this important issue is a 45-minute planetarium show. A broad audience ranging from pre-adolescent to adult will be targeted. Sophisticated and entertaining imaging technologies, including animation and virtual reality, will be used throughout the work. Narration and sound will be tightly integrated into the work. The hemispherical display surface of the planetarium will be fully utilized both visually and sonically. Recent advances in the brain sciences as well as long held understandings about the brain will be presented. Basic brain biology and principles of brain function including cooperativity in brain region activity and brain region specialization will be introduced.
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TEAM MEMBERS:
James McClellandPaul OlesBryan Rogers
The Louisville Science Center and the National Center for Family Literacy will engage in a year's planning to introduce the Parent- Child Interaction Project to teams of educators in six target cities. The goal is to explore the feasibility of a future national implementation of the model. The Parent-Child Interaction Project aims to empower underserved parents to become their child's most important teacher and provide these parents and their children the opportunity to gain science, mathematics, and technology education together. The participants are the parents and pre-school children enrolled in family literacy programs. During the Project, parents and children will make at least four trips to the participating science-technology center and evaluate their trips during follow-up class sessions. The joint efforts of the family literacy programs and science- technology centers can achieve the following goals: * Improve the involvement of low-income and low-literacy parents in the education of their children, specifically in the areas of science, mathematics and technology. * Increase the awareness of local science and technology centers as available community resources, particularly for underserved audiences. * Use science center visits and related projects to extend NCFL classroom learning for adult education students, their children and their teachers.
The Tech Museum of Innovation will fabricate, install, and evaluate a 6,800 square foot exhibition. Through approximately 66 interactive exhibit experiences, visitors will discover how basic science is applied in practical, real-life circumstances for the design and engineering of advanced technologies. An array of educational programs has been designed to appeal to a diverse audience with a variety of interests and learning styles. Demonstrations, hands-on activities, and interviews (online and/or multimedia) with nationally recognized innovators will highlight innovation as a complex process involving careful preparation, use of the scientific method, the ability to problem solve and make connections, and luck.
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TEAM MEMBERS:
Dan WodarcykJon BetthauserEmily RoutmanSusan WagemanWayne LaBar
The Wildlife Conservation Society is developing and implementing a five-year science program for 420 parents and 210 teachers of children in grades K-8. Linked directly with school curricula and the new National Science Education Standards, the program will bridge the gap between parents and schools, and position the Zoo as a partner and intermediary to help parents and teachers improve the quality and quantity of science education. The program consists of four interrelated components: 1) A series of workshops that will prepare the 420 parents and 210 teachers to work in teams for better and more widely available science education; 2) A series of education projects that will enable workshop participants to teach thousands of other parents and educators about the importance of science literacy, the need for active parental engagement in children's education, and the crucial role that informal science institutions play in augmenting formal science instruction; 3) A series of four Science Advocacy Fairs at the Zoo that are expected to raise the visitor's consciousness on a large scale about the above issues; and 4) A symposium for educators from schools and informal science centers in the region to disseminate successful methods for involving parents in science education.