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.
Children's Discovery Museum of San Jose seeks National Science Foundation grant support in the amount of $381,000 (55% of a total project cost of $693,188) to develop over a 24-month period a series of interactive exhibits exploring the subject of rhythm, including both obvious and lesser known manifestations within the natural and physical worlds. Drawing upon the scientific disciplines of mathematics, biology, physics and psychology, RHYTHM takes as its construct the idea of time, the articulation of which means for apprehending and understanding rhythm. Working with outside advisors in science education and specific content areas, Co-PI Michael Oppenheimer will develop and build 20 exhibits, which will be semi- permanently installed at Children's Discovery Museum and accessible to our annual visitor population of 350,000; exhibits will also be profiled on "Kids" Clubhouse," a television program developed jointly by the Museum and our local PBS affiliate, KTEH/54, viewed by 55,000 weekly. Matching funds are also being requested to support curricular materials and a traveling version of RHYTHM. Over a 2-year, 8-site tour the Association of Science and Technology Centers projects that the series will reach a national audience of more than 1,000,000 children and adults. As a comprehensive project, RHYTHM provides a compelling model for addressing imperatives articulated in Science for All Americans, the landmark report issued by Project 2061 of the American Association for the Advancement of Science. Located in San Jose, California, the Museum serves an expanding urban area characterized by extraordinary ethnic diversity: Santa Clara County's 1.5 million residents are 42% non-Anglo, while San Jose is 50.8% Hispanic, Asian and Black.
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TEAM MEMBERS:
Sally OsbergKoen LiemTom NielsenMichael Oppenheimer
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.
Girls Inc. will develop a national model summer program for girls aged 12 to 16 to encourage their interest in science, their enrollment in science courses in high school, and their interest in science careers. The recruitment of girls from low-income and minority families as participants will be a high priority. The program will represent a synthesis of Operation Smart, an afterschool science and mathematics program, and Eureka Teen Achievement Program, which introduces science and mathematics in summer programs through sports. The program will be developed and field- tested in five diverse Girls inc. sites around the country and to other interested groups. Substantial formative and impact evaluation is planned.
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TEAM MEMBERS:
Libby PalmerHeather Johnston Nicholsonellen wahl
Founded in 1979, the Science Skills Center (SSC) is a non-profit community based program which encourages young minority and female students to pursue careers in science, mathematics, and technology. At its current two sites, located in Brooklyn, New York, approximately 400 students, ages six to eighteen, are enrolled in programs where they take accelerated courses in biology, chemistry, physical science, rocketry, oceanography, botany, and advanced mathematics. Classes, which are presented within the cultural and linguistic understanding of minority children, provide students with an opportunity to recognize the relationship of science, mathematics, and technology to their everyday lives. The SSC proposes to replicate its present programs, establishing three additional sites in the New York City area in three years. The SSC also proposes to establish a systematic replication program which would assist other communities, both regional and national, to establish their own SSCs. This project would require a resource person to guide communities in all aspects of program development. To assist in that effort, SSC proposes development of comprehensive educational and administrative manuals as well as the preparation of accompanying training and profile videos. Finally, the SSC proposes to develop a research module in software and manual form which would assess and track student learning, school performance, performance on standardized exams, career aspiration and selection, and student attitudes in a community based science program targeting minority students.
Future Scientists and Engineers of America (FSEA) is a structured after-school program to promote math and science through engineering applications among American youth, grades 4 through 12. FSEA has hands-on projects at increasing levels of complexity which provide student members with practical engineering applications of science and mathematics. Students advance through categories similar to the Scouts based on Satisfactory completion of projects. They enter as a technician and advance to levels of scientist and engineer. Chapters are sponsored by businesses, professional societies and community organizations which provided mentors and funding for FSEA projects. Each Project is conducted by a team consisting of a volunteer teacher and a volunteer mentor. A mentor must have a technical background in a scientific or engineering field. Mentors can be volunteers recruited from industry, retired scientists and engineers or engineering students. In less than a year, mentors and teachers have attended start- up workshops and 24 chapters have been successfully organized. Increasing demand for chapter development, with continuing emphasis on minority and female youth, has created the need for further development of projects kits, parent involvement and continuity among feeder schools. The proposal intends to develop the procedures, structure and organization that would enable FSEA to develop an additional 35 chapters in Southern California and become a national after-school program and expand to other states.
This planning grant deals with helping people in a flood prone area, Lehigh Valley, understand climate change and the impacts it can have on their livelihood. Through a series of town hall type meetings and distributed materials, the Nurture Nature Foundation and scientists will provide perspective on climate change and options now available to them. The target audience will range from teenagers to adults. During these discussions STEM concepts shall be integrated into the materials. An important aspect of this planning project is devising strategies for interactions with the local groups in meetings and for effective displays and exhibits that not only address the flooding/climate change issues but also reflect the STEM principles and concepts that are involved.
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TEAM MEMBERS:
Catherine Brandes
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 Franklin Institute Science Museum, a major American Science Center serving more than 700,000 individuals annually, proposes to create a 3,700 square foot permanent exhibition that will promote public interest in and understanding of the concepts and principles of mathematics in concrete, tangible form. The exhibition will consist of five clusters of hands-on devices, interactive computer programs, models, and text on the themes of Geometry; Symmetry; Chance, Probability and Randomness; Series, Sequences and Limits; and "Modern Math"--Fractals, Knots and Braids and Topology. Museum staff will utilize several mathematicians as advisors and design participants and will develop adjunct educational materials for use by teachers, students, and family members. They will disseminate exhibition techniques and content by providing six collaborating museums with selected copies of exhibit devices and hardware for their use in developing temporary or permanent mathematics exhibits. Staff of the six museums will join advisors for a design conference during exhibition planning, and will provide evaluation reports on their use of the exhibit materials. Knowledge of mathematics is not only necessary for everyday life; it is central to public understanding of science and engineering, and a key to continued participation in science and engineering, and a key to continued participation in science education in high school and college. Increasing national interest improvement in the mathematical ability of americans at all levels, pre-college and college, make this proposed exhibition particularly timely.
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.
Building Demand for Math Literacy is a comprehensive project designed to increase arithmetic and algebraic mathematical competency among underserved youth, as well as high school and college students trained as Math Literacy Workers. This project builds on the success of the nationally renowned Algebra Project that is designed to foster mathematics achievement among inner city youth. Math Literacy Workers will deliver after school activities to African-American and Hispanic youth in grades 3-6. In addition to offering weekly math literacy workshops, Math Literacy Workers will also develop and implement Community Events for Mathematics Literacy and activities for families in the following cities: Boston, MA; Chicago, IL; Jackson, MS; Miami, FL; Yuma, AZ; New Orleans, LA; San Francisco, CA and Newark, DE. The strategic impact will be demonstrated in the knowledge gained about the impact of diverse learning environments on mathematics literacy, effective strategies for family support of math learning, and the impact of culturally relevant software. Collaborators include the Algebra Project, the TIZ Media Foundation, and the Illinois Institute of Technology, as well as a host of community-based and educational partners. The project deliverables consist of a corps of trained Math Literacy Workers, workshops for youth, training materials and multimedia learning modules. It is anticipated this project will impact over 4,000 youth in grades 3-6, 700 high school and college students, and almost 4,000 family and community participants.
Radio Lab will produce 20 hour-long interdisciplinary science programs and 30 shorter features to be aired on NPR news magazine programs on a wide range of core STEM topics exploring how research is done as well as what the scientific results mean to the listener. The programs are co-hosted by Robert Krulwich, science reporter for NPR, and Jared Abumrad, WNYC radio producer and music composer. The programs are using a new, unorthodox format with music, live sounds and conversations between the hosts designed to appeal to young adult listeners who previously thought they did not like science. Each episode is crafted around a scientific finding and aims to connect the scientific inquiry to philosophical and universal implications. Program topics will include biology and neuroscience as well as physics, genetics, chemistry, math and engineering. The program carriage goal is to have the hour-long programs airing on 100 stations reaching three to four million listeners by the end of the project. The shorter segments will be distributed by NPR in its regular news magazine programs. Programs will also be podcast on NPR and WNYC's web sites, as well as through iTunes. The project will also train NPR science reporters on this new approach to science news content.
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TEAM MEMBERS:
Ellen HorneJad AbumradRobert KrulwichBarbara Flagg