The California Museum of Science and Industry (CMSI) will develop a new exhibit "Body in Balance: Developing Integrative Life Science Exhibits." This will be a 3000 sq. ft. component in the new 17,500 sq. ft. World of Life Exhibit Hall when the CMSI opens its new facility in 1997 and becomes the California Science Center. The World of Life is organized around several key science concepts which emphasize the commonalties among living things and their life processes. One of the major ideas to be communicated in this area is homeostasis as it applies to human beings. Homeostasis has been chosen because it is the unifying theme of system physiology. The exhibit will include seventeen exhibits (with a total of sixty- seven interactive elements) as well as a "The Body in Balance" theater presentations and bilingual (English/Spanish) exhibition books. This integrative view of body functions is consistent with recommendations from Benchmarks for Science Literacy and the Science Framework for California Public Schools Grades K-12. A broad menu of complementary formal education materials will be developed.
The Massachusetts SSI (Project PALMS) will conduct this project in partnership with MITS (the Museum Institute for Teaching Science, Inc.) and will develop, demonstrate the effectiveness of, and disseminate a locally-driven model for parental involvement in mathematics, science, and technology education. The model builds on the SSI structure by starting with parents who are active in PALMS District Leadership Teams for Systemic Change (approximately 2900 parents). These parents will have opportunities for additional training with materials such as Project PRISM, EQUALS, AAAS, etc. These support the new State frameworks and assessments developed through he SSI, and are also in support of the high quality curriculum materials recommended for implementation in schools. Parents will then develop local plans for engaging other parents in their communities. Materials will be developed, including a manual on How to Build Coalitions to Engage Community Members in Mathematics, Science, and Technology Reform. In addition, materials will be developed and outreach activities will be conducted to include activities for parents and children (estimated to reach an additional 21,000 parents) held in nontraditional environments such as subways, laundromats, health clinics, and malls. Products will include a manual on building coalitions to engage communities in supporting mathematics and science reform, and a collection of field-tested prototype outreach activities. Findings will be disseminated through the Eisenhower Consortia, National PTA, Urban League, and National Council of La Raza.
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TEAM MEMBERS:
Thomas NoonanMary Jane SchmittPendred Noyce
This planning project, sponsored by the Washington MESA program, will carry out a planning program which will result in a full proposal to support a strong parents program in the four MESA centers in the State of Washington. With funds from the planning grant the MESA staff will do an assessment of need for a parents program at ten target sites, identify potential partners in working with the project and develop a parent involvement plan for each center. Specific tasks will be to identify a parent coordinator at each site, to prepare the sites to deliver a program for family math, science and technology training and to develop parent leaders at each site who will work with the schools so that they can deliver a strong math, science and technology to all students as well as prepare parents to become active in their children's learning.
Hands-On Science Outreach, Inc. has for a number of years developed and operated recreational after school and Saturday Science Classes for children, at first in Montgomery County, MD; and subsequently, with NSF support, at more than 22 sites around the country. During the last 10 years, they have reached more than 20,000 students with their unique collection of hands-on science activities. The project is well on the way to becoming self sufficient, and this final award will document both the philosophy of instruction and specific teaching methods that they have used and provide a third party evaluation of the processes of learning that they encourage in informal science education programs. Hands-On Science Outreach, Inc. will publish two 32 page booklets outlining their history, philosophy, and methods, and will conduct a third party evaluation of classes in four demographically diverse sites around the country, carried out under the direction of Dr. Harris Shettel, a nationally recognized informal education researcher. The resulting reports and publications will be widely disseminated, providing valuable information to others planning to offer hands-on science activities for children.
The Children's Museum proposes to develop two versions of an interative physical.science exhibit dealing with wave mechanics and the related actions of vibrating and oscillation systems. One version will be a permanent exhibit that is to be a central component in the new science area of the museum, while the other will be a traveling exhibit that will tour the country under the auspices of the Association of Science.Technology Centers. The purpose of the exhibit is to heighten the interest of children in scientific experimentation, with learning taking place at three levels including sensory.motor, perceptual.operational and intutitive.conceptual. Materials for teachers will supplement the exhibit, and an internship program will train largely minority middle.school students in basic concepts and then use them as "explainers" for the general public. The request to the National Science Foundation represents 73% of the total cost of the exhibits, with the remainder coming from institutional and other sources.
Children's Television Workshop proposes to produce a fourth and fifth season of SQUARE ONE TV, a daily series on mathematics for children ages eight to twelve. Season Four will consist of 40 new half-hours for air on PBS stations beginning September 1991. Consistent with CTW's experimental mission in education, CTW also proposes to undertake a new programming approach to expand the reach of SQUARE ONE TV to a family audience by converting the daily detective serial featured in the series, MATHNET, into four one-hour specials for family viewing. These Season Four MATHNET Specials will be researched to test their effectiveness. Eleven hour-long weekly SQUARE ONE TV programs will be produced for Season Five to be aired in addition to re-broadcasts of the daily series starting January, 1993. Seasons Four and Five production will capitalize on the educational impact and appeal of prior seasons. Mathematical content will be based on research and in conjunction with the Series Advisory Committee and consultants. The additional seasons will be supported by a full range of promotion, community outreach activities, and school services, including teacher's guides.
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TEAM MEMBERS:
David ConnellKeith MielkeEve HallJoel Schneider
The Computer Museum proposes to initiate a Computer Exhibits Kits Program whose goal will be to foster a better understanding of computer science and technology among the general public. The program proposes to develop and disseminate nine different kits, each consisting of a computer program, documentation, educational materials and, in some cases, specialized hardware. Other museums and science centers will be able to purchase these well tested kits at modest cost and implement them on personal computers to create exhibits for visitors ten years old and older. Strong support from other institutions suggests that the program will reach twenty million visitors a year.
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.
NACME proposes to develop a 20 minute videotape, with a teacher's guide and student brochure, that will use career opportunities in engineering as a vehicle to encourage math and science course-taking among minority high school students. By introducing engineering careers as dynamic, exciting professions that offer excellent prospects for minority graduates, NACME hopes to motivate students to take academic track science and math courses beginning at the 8th/9th grade crossroads and continuing through high school graduation. The video, geared specifically to a primary audience of 11 to 14 year-old minority students (5th through 8th graders) and a secondary audience of non-minority students, parents, teachers and guidance counselors, will focus on the lives of successful young engineers, male and female, from diverse ethnic backgrounds.
THE DR. FAD SHOW is a daily television series for children ages 6 to 12 that encourages creativity, inventiveness and problem solving in a lively half-hour format. Each program is taped before a studio audience and high-lights the inventions of young participants as well as the fads and inventions of the past, present and future. Created and hosted by Ken Hakuta, or Dr. Fad as he is known to millions of young viewers, the series will combine thirty-five brand new shows with thirty previously produced episodes for a total of sixty-five programs. The series will be produced and packaged next spring and summer at WETA-TV in Washington, D.C. and will be ready for national broadcast on the Public Broadcasting Service (PBS) as early as fall of 1991. THE DR. FAD SHOW will be accompanied by a significant outreach and promotion effort, as well as an educational component that will include an activity and teacher's guide. The programs have already won the endorsement of the National Education Association and the National Inventive Teaching Association (NITA) among others, as well as the enthusiastic support of parents, teachers and a legion of dedicated young viewers and participants.
Children's Television Workshop is embaring on a ground- breaking experiment in informal science education: the production of an entertaining animated series of 13 half- hour programs for Saturday morning commercial television, based on David Macaulay's bestselling book, The Way Things Work. The audience will be six- to eleven-year olds, with special focus on minority and economically disadvantaged children. The series' primary goal will be to entertain children with lively and appealing characters in a dramatic storyline, while stimulating children's interest in the scientific principles behind the workings of familiar machines and illustrating the action of their parts. NSF support will enable CTW to adapt the CTW Model -- the collaborative process used in earlier NSF-supported programs, 3-2-1 Contact and Square One Tv -- to the opportunities of the animation format and the realities of the partnership with a commercial network. Through a development agreement with CBS, CTW has begun the process of developing the series concept, characters, and storylines. Upon successful completion of this phase, production will follow with an anticipated broadcast premiere in fall 1992. NSF's $2.36 million support will allow this project to be possible by completing the series' funding; it will allow CTW to conduct significant formative research and summative analyses of educational impact, and to reach large minority and economically disadvantaged audiences through wider promotion and the creation and distribution of complementary print materials.
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.