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.
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 middle-school and high-school years are a period of change and crystalization in terms of life goals, disciplinary and course preferences, and social and political attitudes. The literature provides a number of cross-sectional descriptions and models concerning cognitive and attitudinal development during adolescence and young adulthood, but there are no longitudinal data available to study these processes. The proposed longitudinal study will examine the (1) development of interest in science and mathematics, (2) the growth of scientific literacy, (3) the development of attentiveness to science and technology issues, and (4) the attraction to careers in science and engineering among two national cohorts of adolescents and young adults. One cohort will begin with a national sample of 3,000 seventh graders and follow them through the 10th grade. The second cohort will begin with a national sample of 3,000 10th graders and follow them for the next four years through the first full year after high school. Data will be collected from students, teachers, counselors, principals, and parents. A purposive sample of two or three school districts with exemplary elementary school science and mathematics education programs will be selected and comparable data will be collected in these districts. The analysis will consist of a series of expanding multivariate developmental models that will seek to understand cognitive and attitudinal growth and change in the context of family, school, and peer influences. Each wave of data collection will provide an opportunity to examine cognitive and attitudinal change measures in an increasingly rich context of previous measures. Periodic reports will be issued with each cycle of data collection and the data will be made available to other scholars on a timely basis. The first phase of the project, being funded at this time, provides approximately 15 months for instrument development and pilot testing, for sample selection, for monitor selection and training, and for working with the research advisory committee.
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.
"Roman City," fourth in a series of PBS specials based on the acclaimed books of David Macaulay, is an hour-long film that traces the planning, engineering, building and habitation of an ancient Roman city at the height of empire. The program continues the unique Macaulay presentation format of a cinemaquality animated dramatic story juxtaposed with live- action documentary segments, hosted by Mr. Macaulay and filmed at actual sites portrayed in the story. Each film roots its dominant structures and technology firmly within the thought and culture of its historical period. The dual presentation style has enabled the previous Macaulay specials to capture a wide range of viewers from young children all the way up to older adults. "Roman City," as well as the previous award-winning Macaulay specials--"Castle," "Cathedral" and "Pyramid"--is specifically aimed at enhancing the scientific, technical and humanistic understanding of both young people and adults outside of the formal educational environment. All indication from the previous programs suggests that this goal has been widely achieved. There is a natural curiosity about other cultures, about things technical and how they interrelate with human needs and aspirations, and we believe our unique format satisfies that curiosity in an entertaining, informative and educational manner. The ancient Romans achieved breakthroughs in planning and the delivery of those elements deemed necessary for the functioning of an increasingly world. Aqueducts, sewers, roads, bridges, amphitheaters and public buildings, even public lavatories, all speak to the technical mastery of the ancient Romans. And if their social aims were not always as "advanced" as their scientific and technological sophistication, then that, too, provides a modern object lesson on the critical and mutually dependent interrelationship of science and civilization.
WHALES, SHARKS & THINGS IN THE DARK - A 70MM IMAX FILM is the first science museum and aquarium film in the 70MM large-screen format to present the diversity of life in the oceans in a science context. Through a unique collaboration of a national environmental education group, a leading non-profit science center, and with the co-operation of a federal agency, the project's main objective is to convey to a general and school- age audience a view of the richness and range of life in the underwater realm -- from the deep sea creatures to whales and sharks and other marine life. Narratively, the film will proceed through the water column and selected food webs, showing the relationships in the complex skein of life--including human. The audience will be guided by explorers and role-model scientists, such as Dr. Sylvia Earle, an enthusiastic and well- known oceanographer, and three other sets of characters involved in marine science and exploration. The content will highlight a range of scientific disciplines, including marine biology, engineering, geology, physics, and oceanography, and it will shed light on the entire study of the oceans as a career path, and as an area for further investigation. Accompanied by a educational package delivered and supported by all three groups, this film will have wide impact, reaching a projected 8 million U.S. viewers within two years.
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TEAM MEMBERS:
Christopher PalmerDavid ClarkLeighton TaylorPaul Hanle