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.
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.
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TEAM MEMBERS:
Jon Miller
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.