This project will examine the implications of the intersection of art, science, and technology as revealed by the events occurring around the celebration of the fiftieth anniversary of the first general electronic computer, ENIAC-50. The finished product will be radio programming and audio material that presents the coming together of scientists, artists, and other participants in Philadelphia. It will build on the previous research and explorations in both of these fields toward finding commonalties and ways in which each has influenced the other. The finished product will be broadcast for the general public and also can be made available to scientists and educators in the field as resource material for courses, seminars, and lectures as they explore the intersections of science and art and implications this has for research and education.
The Computer Museum proposes to initiate a Computer Exhibits Kits Program whose goal will be to foster a better understanding of computer science and technology among the general public. The program proposes to develop and disseminate nine different kits, each consisting of a computer program, documentation, educational materials and, in some cases, specialized hardware. Other museums and science centers will be able to purchase these well tested kits at modest cost and implement them on personal computers to create exhibits for visitors ten years old and older. Strong support from other institutions suggests that the program will reach twenty million visitors a year.
The museum of Science and Industry, Chicago, in collaboration with the University of Chicago, proposes to develop a major new exhibit on "Imaging Science." Imaging science is a new field rapidly emerging from its roots in the physical, biological, and behavioral sciences, and the graphic arts, and is becoming increasingly important in all areas of scientific research. The primary rationale for developing an exhibit about imaging science, and related programming, is to enhance the overall scientific literacy of four million visitors that come to the Museum each year. In view of the scientific, medical, educational, and cultural value of images, the Museum and University of Chicago believe that an exhibit on imaging science will have broad appeal to museum visitors of many different ages and backgrounds. Today, scientific imaging empowers us to look inward, at the infinite complexity of ourselves, and outward to the edge of our universe. The main thrust of the exhibit will be to teach visitors how images communicate knowledge. Technological advances in computer workstations, that are revolutionizing scientific study, will be highlighted. Exhibit sections will also identify imaging science breakthroughs that will impact the lives of students and members of the workforce in the 1990s and beyond.
To provide the general public with an understanding of the basic principles that underlie the transmission, storage, and retrieval of information, the Fleet Center proposes to build SIGNALS, a 4,500 square foot exhibition. SIGNALS will be divided into three sections, of approximately 15 interactive exhibits each, which explore the physical principles of wave motion, the properties of electromagnetic pulses useful for communications, and the signal processing that enables us to handle information. An Advisory Committee comprised of highly qualified individuals at the leading edge of their fields will support development of SIGNALS; a very experienced team of exhibit developers will fabricate the exhibition. SIGNALS will become a permanent exhibition in an expanded Fleet Center, where it is expected to attract 1 million visitors a year, including at least 100,000 K-12 students. Since the lack of technological understanding is a national problem, we propose to build a 3,000 square foot traveling version of SIGNALS, contingent upon an NSF review of the completed permanent exhibition. The total cost for both exhibitions is $1,983,480. We are requesting $985,900 from NSF: $692,800 for the permanent exhibition and $293,100 for the traveling exhibition. The project will begin in June, 1992, and be completed by June, 1996.
The "Environmental Science Information Technology Activities (ESITA)" based at the Lawrence Hall of Science (LHS) at UC-Berkeley is a three-year, youth-based proposal that seeks to engage 144 inner-city ninth and tenth graders in learning experiences involving environmental science and information technology. The goal of the project is to develop, field-test, and disseminate an effective student-centered, project-based model for increasing understanding and interest in information technology. Program components included an afterschool program, summer enrichment and an internship program. An extensive partnership involving community based agencies, environmental science organizations, a local high school and industry support the project by serving as host sites for the afterschool program and internship component. Student participation in project-based, IT-dependent research activities related to environmental science will occur year round. Students will research air and water quality in their local communities and study attitudes toward -- and use of -- information technology among their peers. The focus of the research activities is based on the results of a students-needs assessment. Students participate in the program over a two-year period and are expected to receive at least 240 total contact hours. The afterschool program serves as the project's principal mechanism for content delivery. The five-month afterschool program consists of inquiry-based mini-courses on the following topics: Information Technology tools and concepts, earth and physical science, data compilation and modeling, and publication of research results. The summer enrichment component encompasses a series of workshops at LHS; excursions to IT-related exhibits, environmental facilities, and IT-based companies; and an annual student robotics fair. During the second year of program participation students will complete 12-month internships to support the application of concepts and skills learned the first year. The LHS Student Geoscience Research Opportunities program will serve as a model host site for the program. Stipends are provided throughout the program to encourage student participation and retention.
This project is designed to improve communication between scientists and the public focusing on the role of evidence in science. It is a two-year project that includes: 1) implementing a national survey on the public use of science web sites; 2) conducting a national Science Education Outreach Forum bringing together scientists and informal science educators; 3) implementing workshop sessions at a national conference to disseminate lessons learned from the survey and Forum; and 4) developing a prototype website on the role of evidence that will be evaluated for audience engagement and understanding. This project builds on the Exploratorium's prior NSF-funded project (ESI#9980619) developing innovative strategies using the Internet to link scientists and the public using Webcasts, annotated datasets and interactive web resources. Project collaborators include the Pew Internet and American Life Project, Palmer Station, Scripps Oceanographic Institute, FermiLab and the Society of Hispanic Physicists among others. The research and evaluation of the project has the potential for strategic impact by providing new information and models on how science centers can more effectively use the Internet to improve communication between scientists and the public while engaging learners more effectively.
The Ocean Institute (OI), in partnership with Scripps Institution of Oceanography (Scripps), Capistrano Valley Boys & Girls Clubs (BGC) and the Institute of Electrical and Electronics Engineers (IEEE), is developing "SeaTech," a multi-year, Youth-based ITEST program providing 120 female and minority middle and high school students from underserved populations with 391 contact hours of information technology (IT)-intensive oceanographic research experiences. SeaTech content focuses on understanding the acoustic behaviors of whales and dolphins, specifically, sound production, noise impacts and acoustic population census in California, the Bering Sea and the Southern Ocean. SeaTech offers a two-year core program for 13 & 14 year olds consisting of a "Breadth of Exposure" phase and a "Depth of Skills" phase totaling 299 hours. The core program has three distinct elements -- after-school clubs, field explorations and summer research institutes -- and is augmented with efforts before and after: an Early Pipeline Development phase (52 hours) for youth age 12, and Internships (40 hours) for youth age 15. The three-year ITEST grant will host three cohorts of 40 participants each. Each youth participant will receive 391 total contact hours. Through efforts directed at parents, SeaTech anticipates involving 60 parents in about 80 hours of activities each year. Coordinated through and with the expertise of Capistrano Valley BGC, recruitment will include orientation and information programs, a bilingual brochure and direct efforts by BGC staff. In addition, recruitment will happen from local schools. INTELLECTUAL MERIT: IT-based studies of marine mammal bio-acoustics will 'hook' student interest in after-school clubs, field explorations and summer research institutes. SeaTech advances understanding of the role of broader pipeline development in addressing chronic recruitment and retention problems in teen-targeted IT programs. BROADER IMPACTS: SeaTech programming has been meticulously and demonstrably integrated into the afterschool programming at the BGC. The SeaTech Club provides organizational structure to the teen activities at the BGC; however, the IT curriculum is also integrated into two nationally renowned extant structures called Career Launch and Club Tech. Findings from the project's examination of recruitment, retention and parental involvement will have broad implications to the field of informal science education.
DATE:
-
TEAM MEMBERS:
Harry HellingKelly ReynoldsJohn HildebrandCandice Dickens
resourceprojectProfessional Development, Conferences, and Networks
The Computer Clubhouse Network, based at the Museum of Science in Boston, has developed a successful model for engaging youth ages 10-18 in technology-related activities. This planning grant will build on the best practices acquired over the 12-year history of the Computer Clubhouse and identify materials and resources to support professionals at community sites and after school centers with similar goals. The planning activities will inform the creation of professional development workshops and resources to improve the quality of technology programs for youth. Project partners include the MIT Media Lab; Fairfax County Department of Community and Recreation Services (Fairfax, VA); Westside Youth Technology Entrepreneur Center (Chicago, IL); Little Haiti Housing Association (Miami, FL); and Youth Opportunities Unlimited (Los Angeles, CA). The project deliverables include an analysis of existing programs; a staff needs assessment; examination of effective professional development strategies, pilot workshops and online resources, and a matrix to measure program effectiveness. Strategic impact will be realized through the design of resources that support content-rich programs and improve sustainability in community technology programs nationwide.
The New York Hall of Science will develop "Connections," a 3,500-sq. ft. interactive exhibition and related learning resources that will introduce visitors to the fundamental technology of networks. "Connections" will offer diverse audiences opportunities to explore networks, both natural and human-designed. The exhibition will highlight the fundamental characteristics of networks such as their structure, function and adaptability. The project will also produce supporting educational resources for families, after-school programs, community groups, students and teachers. Audio-tours will be produced for general visitors and for visitors with visual impairments. The Connections Discovery Lab, a 750-sq. ft. enclosed space adjacent to the exhibition, will offer scheduled workshops and drop-in programs.
The Tech Museum of Innovation is producing a 3,000 square-foot permanent exhibition, complementary online acitivities, and a Design Challenge curriculum to engage visitors in the exploration of Internet techologies. The goals of the project are to enhance the technological literacy of middle school students, provide the general public with tools, experience, and confidence to participate in shaping the future of the internet, and advance the informal science education community through applied research in networked exhibit technology. Two distinct features of the exhibit are: 1) The Smart Museum, a computer network linking gallery and online expereinces, and 2) "dynamic content," a set of strategies for rapid exhibit updates that will mirror the changing Internet for the life of the exhibition. The Design Challenge curriculum will be used at the museum, in outreach to classrooms and community centers, and in training sessions for science educators. The summative research will be shared with the science education community via The Tech's web site as well as professional seminars, publications and conferences.
The Oregon Museum of Science and Industry (OMSI) will design, develop, evaluate and install "Technoquest," a permanent 6,000 square foot interactive technology exhibition for families, underrepresented groups, school groups and OMSI's general audience. "Technoquest" will fill OMSI's Technology Hall with a suite of highly interactive, exciting and engaging hands-on educational exhibits, computer simulations, audio and video components, text, graphics and artifacts. The exhibition hall will be divided into five thematic areas: industrial technology (robotics), medical technology, transportation technology, computer technology and communications technology. Other experiences will include a quick-change area for rapidly exhibiting emerging technologies and a Technology Lab where activities conveying a deeper understanding of the general principles of technology will be presented. Ancillary educational materials will be disseminated to the general public and to educators via print, the exhibition website, teacher workshops and professional development workshops for informal science educators. Content of the exhibition and ancillary materials will focus on general educational principles established by the International Technology Education Association (ITEA) that emphasize the processes common to all forms of technology and that align with state and national science standards. Principal concepts include The Nature of Technology, Technology and Society, Design, Abilities in a Technological World, and The Designed World. These principles will be reinforced throughout the exhibition. Each thematic area will highlight all five key principles of technology as defined by the ITEA.
DATE:
-
TEAM MEMBERS:
Raymond VandiverJan DabrowskiBenjamin Fleskes
Thinking SMART is a comprehensive five-year program that will encourage young women to pursue careers in science, mathematics and technology. The project focuses on girls ages 12-18, and will especially target those who are underserved and underrepresented in the sciences, including girls from diverse backgrounds and persons with disabilities. Key elements include four science/engineering module options, a two-tiered mentoring component, training, resource materials, online activities and an awards program. The modules (Material Girls, Eco Girls, Galactic Girls, Net Girls), focus on engineering, ecology, physics and computer science respectively, and will be aligned with national standards. The modules are implemented during the school year and include weekly programming, a summer camp and a spring "Women in Science and Engineering" conference organized by girls. Weekly meetings are augmented by online activities, in which girls interact with other participants and mentors, publish reports and obtain career information. Additionally, participants who complete all four modules are eligible to become paid mentors for younger participants. Five publications will be produced to support the program, including manuals for mentors (both adults and youth), module activities, a parent guide and a guide for implementation sites on community partnerships. Thinking SMART materials will be developed and piloted tested at eight sites in conjunction with Girls, Inc. affiliates in Nashua, NH, Worcester, MA, Oakridge, TN and Shelbyville, IN, with input from the Society of Women Engineers. Extensive training will also be provided for pilot programs and future dissemination. Finally the E3 Awards Program will motivate implementation sites to create high quality local programs. It is anticipated that more than 1,500 Girls, Inc. affiliates will adopt "Thinking SMART."
DATE:
-
TEAM MEMBERS:
Brenda StegallJanet StantonHeather Johnston NicholsonShalonda MurrayJoe Martinez