WGBH Educational Foundation is producing a prime time television series and informal education outreach component entitled 'A Life of Science.' Each of the six one-hour programs in the series will profile a contemporary woman scientist: Lydia Villa-Komaroff, biologist; Melissa Franklin, physicist; Misha Mahowald, computational neuroscientist; Marcia NcNutt, geologist; Lynda Jordan, biochemist; and Patty Jo Watson, archaeologist. The stories will present their scientific quests and careers but also will be about scientific lives. An outreach plan, which centers around a national campaign called 'The Missing Persons Investigation,' will target two primary constituencies: girls and boys 11-14 years of age and their adult teachers and youth service community leaders. The project will serve these audiences in formal school-based settings as well as in the informal settings of community-based organizations and institutions. Beyond these immediate target groups, the outreach project will reach a broad and diverse national public through related activities including demonstrations exhibits, community campaigns at local public television stations, and media partnerships. A comprehensive promotion plan has been devised to inform the public of both the series and the outreach component of the project.
The Ann Arbor Hands-On Museum is requesting $370,728 to create a traveling exhibit entitled "How Things Work, which will familiarize students and the general public with the science and engineering behind 15-20 "gadgets" which play vital roles in their everyday lives. A number of the exhibit elements will be based on the work of Dr. Richard Crane. Ancillary materials will be developed for classroom teachers as part of school outreach. An Exhibition Resource Guide will be developed for use by other museum venues, as well as teachers, students and others.
The Museum of Science and Industry will develop "Genetics: Decoding Life," a 4325 sq. ft. permanent exhibit about the basic principles of genetics, the Human Genome Project, new tools and technology to study life, and the biomedical and biotech applications resulting from genetic information. As a result of interacting with this exhibit, visitors will understand the basic principles of genetics, they will become familiar with the role of genes in the development of life, they will learn something about how and why scientists used genetic tools, and visitors will become aware of applications of these principles and the potential social, ethical, medical and economic outcomes. In addition to the exhibit there will be a number of complementary outreach programs. An electronic web site will be created, software used in the exhibit will be modified into a format suitable for use in schools, computers loaded with genetic programs will be loaned to Chicago public school groups, churches and other community agencies, and the content of the exhibit will be used to enhance special Lamaze and prenatal classes held at the museum. Special consideration will be given to developing the relationship between the project personnel and the staff of the Chicago Systemic Initiative. They will work together to produce a school program about genetics that will be suitable for grades 5 to 8. School materials will include a teacher's guide for the exhibit, a program of classroom activities, and materials to be used before and after a trip to the museum to see the exhibit.
The Lawrence Hall of Science proposes to develop a major public education program, including a traveling exhibition, two planetarium programs, a play, and a kit for schools entitled "Columbus' Great Experiment." Emphasizing science and technology, Columbus' first voyage is portrayed as an experiment aimed at testing the hypothesis (based on doubtful evidence) that sailing to the west was a more practical way of reaching the Indies than by sailing east around the Horn of Africa. As with many scientific experiments, the results were quite different from what the experimenter had in mind: instead of finding a sea route to the Indies, Columbus vastly expanded knowledge about our planet and spurred developments in science and technology. These events occurred within a social and cultural context that were critical to the development of modern science, and resulted in far-reaching changes in the population and ecology of the world which continue today. The National Endowment for the Humanities has recently awarded a grant for the development of the exhibits. The present proposal requests that NSF join with NEH to complete and expand the project, by funding: a) components of three additional copies of the exhibition to be constructed by other museums, thus expanding the public audience to 19 million visitors; b) two participatory planetarium programs; c) a play about the scientific aspects of Columbus' voyage; and d) school kits that will enable teachers to present the most important ideas embodied in the exhibition to students who are unable to view the exhibition at a science center. Interest in these programs will peak around Columbus Day, 1992, we anticipate that the materials will be sufficiently interesting, informative, and entertaining to be used for many years to come.
This National Science Foundation grant was designed to expand NACME's existing information program to reach more teachers, counselors and parents of minority students at the junior and senior high school levels and, ultimately, to provide more and better information to the students themselves. Materials produced under the grant to convey the message that minority students can find rewarding, attainable careers in mathematics and science-based fields, that financial aid is available to help students prepare for such careers, that there are specific academic prerequisites for students interested in studying engineering at the college-level, and that there is a growing network of programs to encourage the study of engineering and related technical fields among under represented minority students. Specifically, this funding was used to develop, produce and distribute: "Engineering, Your Key to the 21st Century" 30,000 brochures with companion posters targeting junior high school students, parents and teachers. "Financial Aid Unscrambled: A Guide for Minority Engineering Students" 30,000 books targeting high school seniors, teachers, guidance counselors and parents. "Students Guide to Engineering Schools" 30,000 books targeting high school students, teachers, guidance counselors and parents. "MEPs/USA: The Directory of Precollege and University Minority Engineering Programs" 5,000 directories for guidance counselors, teachers, program directors and other participants in the field.
The North Carolina State Museum of Natural Sciences requests $544,390 for the design and implementation of Freshwater Westlands: Habitats of Beauty and Function. This project consists of two main components: a 2,800 sq. ft. exhibit and related education program. The exhibit will communicate ecological principles and provide visitors of all ages with an appreciation of the diversity and beauty of freshwater wetlands habitats. The exhibit is comprised of three main areas: an introductory theater, an immersion diorama, and an interactive hall. Exhibits are designed to present many aspects of freshwater wetland habitats, including hydrology, dendrochronology, organism structure, and function, life- cycle, ecological research, and environmental policy. Through interactive exhibits on scientific concepts, visitors will gain an appreciation of both a particular habitat and the process of science and its application to their lives. The major objectives of the education program are to help teachers of grades 4-8 to bring the study of freshwater wetlands into their classrooms and to employ experientially oriented pedagogy. The project will offer a teacher resource guide, prepared in collaboration with state science curriculum staff, a satellite workshop for teachers, a freshwater wetlands edition of Wildlife in North Carolina, a statewide publication prepared in collaboration with the NC Wildlife Resources Commission, and a classroom program in the museum.
The Mississippi Museum of Natural Science (MMNS) will develop a program over the next two years aimed at teachers and students in grades 3-7. The project will develop teacher kits and "hands-on" exhibits tied to the new state curriculum and to the science television series "3-2-1 Contact". The MMNS is a division of the Mississippi Department of Wildlife Conservation and is designated as the official natural science museum by the State Legislature. The Museum has been in operation for 50 years and, since its inception, has served as a resource for classroom teachers. Mississippi has approximately 500,000 public school students attending about 1,000 schools. One third of these children are considered to live below the poverty level and 50 percent are from minority groups--a priority for the NSF. The MMNS has had success with a small pilot project which coordinates science concepts taught in the television series "3-2-1 Contact" with exhibit programs at the Museum. Over the next two years MMNS will expand their "hands-on" exhibits and develop science kits for use in the classroom in coordination with the new state curriculum and the television series. The kits will include museum objects, suggested activities and a teacher's guide. During the first year a series of "Contact Days" will be held with teachers and students across the state to develop and test the effectiveness of the project along with a lecture program by minority and women scientists. During the second year the exhibits will travel to schools across the state.
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TEAM MEMBERS:
Elizabeth Hartfield
resourceprojectProfessional Development, Conferences, and Networks
The middle school years are critical in determining a student's success and continued participation in mathematics. This proposal involves the expansion of MESA (Mathematics, Engineering, Science Achievement) model to the junior high/middle school population in the State of Washington. The project will focus on updating and revitalizing middle school mathematics curriculum, the goal being to increase minority student enrollment in algebra in the ninth grade. The MESA model also recognizes the need for teacher support and provides teacher seminars on a regular basis. Additionally, the expansion of the statewide Pre- College Center at the University of Washington will include the coordination of a statewide program at the junior high/middle school level. The MESA model is based on a partnership between industry and educators--a cooperative effort involving scientists on loan from industry, educators at the university level and educators at the secondary school levels working together to develop curricula that will stimulate student interest and achievement in mathematics and science. The staff for the project is well qualified with experience in the MESA program and in curriculum development and teacher training. The proposal addresses a clear need for improving minority mathematics education in middle/junior high schools and promises to have an impact throughout the nation for all students by serving as a model academic program. The project goals are consistent with the Instructional Materials guidelines. Therefore, an award is recommended.
The Mississippi Museum of Natural Science proposes to build on its program of activities that involve children in science and bring them into contact with the approaches, objects and equipment that scientists use, with each activity designed to stimulate thinking and heighten interest in science. Cardinal features of the program are the development of hands-on exhibits, science kits for classroom use and a studied tie with the children's television program, "3-2-1 Contact." The goals are to coordinate these activities with hands-on science activities for students in grades 3-6, and to coordinate classroom activities with those at the museum, which conducts "3-2-1 Contact Days" throughout the year when students come to the museum and take part in experiments, observations and enrichment lessons and actively manipulate museum objects. The museum now will refine the program components, including improvement and duplication of the hands-on kits, continuation of the workshops for elementary teachers and development of new participatory exhibits dealing with insects and endangered species, and will present them to an expanded audience. One-third of the children in the state live below the poverty level, and fifty per cent represent minority populations. As most of these children lack such out-of-school experiences these informal science activities are particularly meaningful.
This Communicating Research to Public Audiences (NSF 03-509) project will produce a half hour documentary television program and use it to conduct outreach to encourage students and teachers to pursue science and engineering careers through hands-on activities in polymers and plastics, cutting edge scientific experiments, enrichment activities, and effective mentoring. The project is based on her NSF-funded research NSF #0300717 aimed at understanding the structure-property relationships of newly developed biopolymers and their composites. The PI previously developed the Why Plastics? curriculum to provide a high-quality science educational experience to pre-college students. This project will create a half-hour documentary to bring the local success she has had with the program to a broader audience. The documentary will be screened on public television and in other venues such as children's museums in an effort to magnify the effects of the Why Plastics? course. Film footage will also be used for a multimedia Web site for documentary viewers who want to learn more about the subject. Why Plastics? primarily serves youth from elementary and middle schools in which a large number of the students are members of underrepresented groups.
The World Media Foundation is producing and distributing "Emerging Science of Environmental Change." This radio-based project presents new and cutting edge research to the public through National Public Radio broadcasts, Internet radio broadcasts, multi-media web presentations, Internet-based discussion, formal school curricula and public lectures. The goal of the project is to provide the public with a longitudinal view of how those engaged in cutting-edge science formulate theories, structure their inquiries and monitor the ongoing processes, pitfalls, unexpected results and successes of their research. The production team will closely follow the work and processes of one or more research teams over major portions of the 36-month project in order to provide an in-depth understanding of the research process. The project will deliver nine one-hour radio specials and nine additional hours of shorter program segments that will be included in the NPR "Living on Earth" series. The online component of the project will present expanded versions of the audio through its daily web radio service, as well as multi-media web pages with references and discussions linked to the core subjects of the specials. School outreach will be directed primarily at largely urban, under-served middle and high schools. It will use the audio and multi-media web presentations of current research as frames of reference for student instruction in environmental science.
Family Science: Expanding Community Support for Inquiry-based Science is the University of Washington's innovative five-year plan for reaching youth and families in the Seattle school district. This program represents an enhancement of the NSF-funded Family Science program targeting grades K-5 and expansion of this successful program to include middle and high school students. The proposed activities, Science Explorations, Inquiry Science Conferences and Community Celebrations, are designed to help parents understand inquiry-based science instruction while heightening students' confidence in their ability to understand science processes. The hands-on activities also support and complement Seattle's Local Systemic Change project by enlisting teachers, parents and community members to champion science education outside of the formal school setting. The implementation strategy includes workshops to train Family Science Lead Teachers and Parent/Community Leaders to coordinate Family Science programs. Subsequent partnerships between teachers and community organizations are designed to establish regional clusters of community networks to support programmatic activities during and beyond the funding period. It is estimated that Family Science will result in the presentation of nearly 300 school and community-based events impacting 10,000 individuals.
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TEAM MEMBERS:
Leroy HoodEthan AllenDana RileyPatrick Ehrman