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.
Through the proposed project, approximately 555,000 youth and adults will improve their knowledge of the basic sciences and mathematics, and learn to integrate and apply these disciplines, by analyzing local environmental problems using remote sensing imagery and maps. Faculty from the Cornell laboratory for Environmental Applications of Remote Sensing (CLEARS) and Cornell Department of Natural Resources will train county teams of teachers, museum and nature center educators, community leaders, and Cooperative Extension agents from throughout New York State to conduct educational programs with youth and adults in their communities. Previously developed CLEARS educator enrichment workshops and training materials will be enhanced and revised based on the interactions among Cornell Faculty, informal and formal science educators, and students during this program. A facultative evaluation focusing on the workshops, training materials, and educator teaching skills, and a summative evaluation focusing on student learning and attitudes, program delivery in the various community education settings, and the effectiveness of the county educator teams will be conducted. The results of the evaluation will be incorporated into a program handbook and used in nationwide dissemination of the program.
The Franklin Institute Science Museum will, over a three year period, develop a regional Girl Scout leader training programthat provides science education experiences for Girl Scouts. The Girl Scout Council of Greater Philadelphia and the Washington Rock, NJ Council will be primary partners and the source of volunteer leaders and the target audience of member girls. Science Education kits will be developed and tested for Brownies and Juniors, training materials for staff trainers and volunteer leaders developed, leaders trained, and several post.training support mechanisms developed. Program materials are designed for continued use by the Girl Scouts; more than 2,000 leaders will be trained and 20,000 girls will participate in project activities during the three year period. This project is directed at the substantial under representation of women in many science and engineering fields by working with girls in informal settings to overcome patterns of science and mathematics avoidance. Replication and dissemination will be undertaken both within the Girl Scout Council system and among museums, youth organizations, and other informal educators. The proposers are contributing nearly $250,000 in resources to the project; NSF support will be 55% of the project total.
The goal of the project is to produce a one hour television documentary and a series of video teaching modules which explore a wide range of scientific disciplines in an exciting manner by presenting the story of how these disciplines are used in the preparation and racing of an Indianapolis race car. This program will be distributed to a wide audience through its broadcast by PBS and cable sports networks; through dissemination to classrooms and museums nationwide; and through distribution via agencies that focus on bringing educational programs to youth and minorities across the country. We expect to attract a new audience to science, the millions of Americans who are infatuated by automobiles. This is an audience that cuts across age, ethnic and racial distinctions in America today. This exciting story of applied science should also appeal to American youth in a way that more traditional science stories do not. The major scientific disciplines involved in the project are: basic engineering, mathematics and physics, aerodynamics, materials science, mechanics, telemetry and computer aided design. This project is submitted to the Informal Science Education Program. The specific content of this project will be aimed at an audience with little background in science. High-school students and adults should be able to understand all the principles presented. Younger audiences will gain insight into how a knowledge of science is fundamental to a sport that many of them find fascinating.
The Challenger Center for Space Science Education located in Alexandria, Virginia, a nonprofit organization with a mission to increase the number of youth interested in science and space, is requesting $303,170 over two years from the National Science Foundation (NSF) to develop a new scenario for its Challenger Learning Centers. Located in science centers. museums and schools around the country. Learning Centers house equipment and educational programming for hands-on training during a simulated mission. Scenarios use mathematics, science and problem-solving skills to provide participants with simulated experiences of working in a space laboratory and a "Mission control" laboratory. Challenger Center requests assistance and partnership from NSF to develop, field test, implement and evaluate a new scenario on the environment, "Mission to Planet Earth" scenario. This project will involve collaboration of expert scientists, educators, Challenger staff, and science museum professionals. Annually more than 180,000 students and between 10,000 and 15,000 adults will participate in the scenario at Learning Centers, using space as a format for learning about environmental issues. Challenger is working on the preliminary planning stage between June and December 1991. Two years of funding are requested from NSF beginning in January 1992.