This research project is a follow-up to previous research on the persistence of high ability minority youth in college programs for mathematics, science, engineering, premedicine and predentistry. The earlier research used data retrieved from the 1985 College Board files for 5,602 students with SAT mathematical scores of 550 or above. All were minority students except for a comparison sample of 404 White students. In 1987, a first follow-up was conducted. 61 percent of the non-Asian American minority students had enrolled in college and were majoring in MSE fields in comparison with 55 percent of the White students and 70 percent for the Asian American students. In the current phase of this research, the original sample will be resurveyed, five years after high school graduation. A subsample will be interviewed in-depth. The major goal of this phase will be to answer three critical questions: which sample members are still studying or employed in MSE fields, what are their unique characteristics, and what are the theoretical and national policy implications of the results. This project is jointly supported by the Studies and Analysis and the Research in Teaching and Learning Programs.
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.
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TEAM MEMBERS:
Ronni Denes
resourceprojectProfessional Development, Conferences, and Networks
This project will test an instructional strategy designed to increase the pool of minority students who are successful in their study of algebra and higher mathematics courses. Since 1979, the Comprehensive Math and Science Program at Columbia University has been developing an instructional model designed to give all entering ninth grade students the opportunity to work to their highest level of capacity in mathematics. Key features of the model are a zero-based start, which makes no assumptions on students' prior mathematics background, and a complementary curriculum, which provides a set of parallel, interlocking mathematics courses that substantially increases the rate of mathematics instruction over a four semester period. Preliminary tests of the model in New York City schools have yielded encouraging results. In the current project, the instructional materials will be completed and the model will be extensively tested in New York City and in Fulton County, Georgia. The testing will be accompanied by the development of an apprenticeship model for teacher training, which will pair new teachers with experienced teachers in the interlocking courses of the program.
The Girls Clubs of America (GCA) plans to develop over a three year period informal science learning activities to increase the participation of women aged 14-18 in mathematics and science. These materials are part of an overall program, "Operation SMART," that is a major national commitment by the Girls Clubs of America to include science and mathematics education as a major component of GCA activities at all age levels. Prior projects have developed and implemented successful materials directed at elementary and middle school girls; the present project extends this effort into the critically important high school age years. The materials will be developed by project staff in association with developers at the Educational Development Center (EDC), piloted and tested in four Girls Clubs sites along with training chapters nationwide. A publisher will be identified for national distribution and sales of activity materials sets and a book-length publication designed for use by education programs of other youth-serving organizations. A partnership with the Business and Professional Women's Association (BPW/USA) and its 3400 local chapters and with the AAAS Linkages Project will create many non-Girls Club sites. Dissemination to other youth- serving organizations will be carried out through the National Collaboration for Youth. As a result, Operation SMART's high school age materials should reach several hundred thousand young women. Foundations and businesses will provide substantial additional project support; approximately 51% of the total $ l.4 million project budget is requested from NSF.
This one-hour documentary film profile of world famous mathematician Paul Erdos is being made for eventual broadcast on the NOVA series. At age 76, the world's most prolific mathematician (1,100 papers and over 200 co-authors) still spends all of his time moving from country to country, meeting with other mathematicians to work on problems. The film will show how a prodigious mathematician, with a career of over 50 years, lives and works, how he interacts with his colleagues, and how the international community of mathematicians functions. It aims to explore the human side of a discipline in which God, Beauty and Numbers are the subjects of daily speculation. But what do mathematicians actually do? Because of his peripatetic nature and eternal curiosity, Erdos provides an ideal window on a field that has often been perceived by the public as remote and intimidating. The film will show Erdos and his colleagues at work and play. Interviews and archival materials will establish his contributions in combinatorics and in Number theory. Some more accessible problems will be illustrated with animation and computer graphics. The interplay of a warm human story with intriguing philosophical speculations and mathematical problems will show important results are arrived at in mathematics. This is expected to stimulate interest in mathematics among television viewers and students. The film is in production and only partial funding is being requested from NSF.
The critically acclaimed film "STAND AND DELIVER" accomplished the formidable task of focusing national attention on the achievements of minority students in higher mathematics. As a motivational tool for educators, the film's value can hardly be overstated. "STAND AND DELIVER" will now have a second life as a play for the stage. The intimate human drama of the story of Jaime Escalante and his inner city A.P. calculus class will be re- written and confined to one set - a classroom - making it a natural for the theatre. Best of all, junior and senior high schools already have the resources to stage a first-rate production. Since almost all the roles depict students and teachers, "STAND AND DELIVER" should be a natural choice for school drama clubs across the country. The transformation of the movie into a play will take place in three stages: First, the screenplay is adapted into a stage play. Second, the initial stage production is mounted. Third, the play is published and made available to schools and theatre companies for local performances.
The Ann Arbor Hands-On Museum proposes to design and construct a traveling exhibit on energy. The proposed exhibit will have two goals: one, to produce an imaginative exhibit that will stimulate interest and cognitive growth in understanding about geometry; two, to develop a related education program that will reach out to underserved audiences in Michigan and beyond, including minorities, children and citizens who live far from science centers, and audiences of small- and medium-sized science centers and children's museums in the state.
The Field Museum of Natural History in Chicago, with partial support from NSF, will develop science, mathematics, and technology components for a new, permanent 17,000 square foot exhibition on the Pacific. Broad in scope and dramatic in its impact, this exhibition will cut across many fields and disciplines in presenting a coherent, integrated view of the Pacific regions. Topics from anthropology, geology, biology and geography will be combined using collections, reconstructed objects, large scale models, and interactive components in this landmark exhibition. The project will make extensive use of leading researchers, educators, and an evaluation consultant, and will utilize a variety of prototyping and formative exhibit development techniques. The science, mathematics and technology portion will cost $ 1.9 million, of which approximately one third is requested from NSF. The complete 17,000 square foot exhibition will cost $ 3.3 million and will be seen by at least 10 million adults and children over its 20 year life.
Ohio's Center of Science and Industry (COSI) in Columbus, Ohio, in association with the Pacific Science Center in Seattle, WA. and the Battelle Memorial Institute will create and circulate a 4,000 square foot traveling exhibition, "Mission to Mars." Interactive exhibit units will be organized into a spacecraft mission simulator. Visitors in teams will run a scientific mission to the planet Mars. Exhibits and simulation activities will cover basic and applied science and mathematics topics appropriate for middle to high school students and family audiences. Educational materials for school use will accompany the exhibition. COSI has a strong reputation for interactive science exhibitions. Their widely acclaimed "Science of Sports" exhibition will be seen in more than 15 cities. The Pacific Science Center has a similar reputation for educational exhibitions and related materials development. Their educational materials on dinosaurs have been widely used by other museums. The Battelle Memorial Institute is a world- renowned research and applied science organization. "Mission to Mars" is supported by commitments from thirteen of America's leading science museums and a major award from Apple Computer Company. The project team will deliver a timely exhibition that will be both engaging and challenging, rich with scientific detail while still appealing to family audiences. "Mission to Mars" will travel to 13 cities on a three year tour, reaching an estimated three to five million people. NSF's 43% of the project cost will be leveraged by more than $878,000 in contributions from the originating institutions, from the displaying museums and from Apple.
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TEAM MEMBERS:
Charles O'ConnorJoseph WisneMichael Stanley