According to Einstein’s renowned declaration, for those who believe in physics – or, more precisely, in its capability to offer a “scientific” representation of the world – the distinction between present, past and future is just “an illusion, though obstinate”. If we consider an effective analogy by Mauro Dorato, we can state that those who agree with the famous German scientist will recognize in the present, past and future a relationship very similar to that between “here” and “somewhere else” – in other words, the present is just a located moment and has no privileged status. In other
This paper describes how a universal language for notating dance and, more generally, movement was elaborated, known as "Kinetography Laban", or rather "Labanotation". It was devised by choreographer and movement theorist Rudolf von Laban, who outlined it for the first time in 1928, in the journal Schrifttanz. His system differs from precedent notation systems in that Labanotation is rigorous and universal, as it is based not on one particular style or technique but on the general of kinetics underlying human motion. Its geometrical and abstract symbols also free it from language constraints
The aim of this project is to communicate the basic laws of particle physics with Feynman diagrams - visual tools which represent elementary particle processes. They were originally developed as a code to be used by physicists and are still used today for calculations and elaborations of theoretical nature. The technical and mathematical rules of Feynman diagrams are obviously the exclusive concern of physicists, but on a pictorial level they can help to popularize many concepts, ranging from matter and the antimatter; the creation, destruction and transformation of particles; the role of
Design It! Building Design Challenges in After School Programs, funded by the National Science Foundation, is a collaboration between the Education Development Center (EDC), the National Institute for Out-of-School Time (NIOST) and science centers/museums and after school programs located in community-based organizations (CBOs) in six cities. The project's primary goal was to improve the quality of programming in after school programs by establishing long term relationships between science centers/museums and after school programs and developing, incorporating and institutionalizing hands-on
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TEAM MEMBERS:
Patricia CampbellEducation Development CenterLesley PerlmanEarl Hadley
The California Science Center will develop an exhibition, "Abracadabra: The Science of Illusion." This will be a 6000-sq.ft. traveling exhibit. The theme, the science behind magic, will help visitors understand that magic is based on the complex interplay between sensation, perception, physical science and math concepts, culture, and the art of performance. The goal of the exhibition is to use the public's fascination with magic as a bridge to learning basic science in the area of optics, electromagnetics, simple mechanics, math, physiology and psychology. The exhibit will include seven thematic sections and an enclosed theater for live and taped performances. The exhibition will open at the California Science Center in October, 2000 and then will travel to the six science centers that participate in the Science Museum Exhibit Collaborative. It is estimated about 4 million people will view the exhibition during its national tour.
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."
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TEAM MEMBERS:
Brenda StegallJanet StantonHeather Johnston NicholsonShalonda MurrayJoe Martinez
Using a five-month planning grant, the International Society for Optical Engineering (SPIE) will develop a comprehensive 10-year, educational initiative to address the needs of the optical science and engineering communities. A series of workshops will be held at professional meetings of SPIE and the Optical Society of America (OSA) to assess regional needs and resources. Workshop recommendations will be used to create a plan to enhance the scientific and technological literacy of the public and raise the level of awareness about career options in this exciting and expanding field. The meetings will incorporate a diverse array of stakeholders including optical engineering and science professionals, formal and informal educators, as well as representatives from industry and underrepresented groups in science and engineering. Strategic emphasis will be placed on informal science education and efforts to recruit and retain minorities and women in optical engineering and related sciences. The resulting education blueprint will be disseminated to the field in electronic and print media, and subsequently implemented by SPIE and OSA.
The University of California, Berkeley is developing "Windows on Research," a two-year experimental exhibit project at the Lawrence Hall of Science focused on engaging and informing the public about current scientific research. The project will develop and evaluate different media to translate the leading edge of nanotechnology research for the science center audience by featuring live demonstrations and presentations, physical- and technology-based exhibits, and Internet-based exhibits. Formative evaluation of all products, including ongoing public focus groups and surveys, will be used to establish which of the several media, alone or combined, work best to communicate research content. The project team also is developing new assessment tools to test usability and effectiveness of the artificial intelligence and technology-based components in conveying content. The results of this prototype effort to present ongoing research in a museum setting will be disseminated to the informal science education field. The PI, Marco Molinaro, and the team from the Lawrence Hall of Science will work closely with scientists representing research in a number of nanotechnology fields. These scientists bring expertise in the areas of materials science, chemistry, education, bioengineering, mechanical engineering, molecular and cell biology, geochronology and isotope geochemistry, and psychology.
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TEAM MEMBERS:
Marco MolinaroUniversity of California-BerkeleyDarrell Porcello
The Educational Broadcasting Corporation (WNET in New York) is developing and producing a new public television project exploring cutting-edge technology. The project consists of an eight-part hourly broadcast component; six 60-second "mini-programs;" a World Wide Web component; and extensive educational outreach targeted to adults aged 25-39 and older. The topics for the eight programs in season one are: Replacements - prosthetic devices and biologically electronic artificial body parts In Search of Eve - the race to decode the human genome Light of the 21st Century - Fiber Optics Nanotechnology - molecular manipulation of materials Technospy - technologies used to gain information Sports Technology - the pursuit of better equipment and training regimes Artificial Intelligence - efforts to create computers the mimic human intelligence Appropriate Technologies - technologies that use local, inexpensive material Beth Hoppe, WNET's Director of Science Programs will serve as Executive Producer for the series. Each of the programs would be produced by an independent producer selected by WNET. Content advisors include: Angela Christiano, Departments of Dermatology, Genetics and Development, Columbia University; Sheila Sen Jasanoff, Harvard University JFK School of Government; Horace Freeland Judson, Center for History of Recent Science, George Washington University; Michio Kaku, theoretical physicist, CUNY and host, Explorations radio series; Wilfred Pinfold, Microprocessor Research Labs, Intel Corp.; and Barbara Wilson, chief technologist, NASA's Jet Propulsion Laboratory
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TEAM MEMBERS:
Beth HoppeTamara RobinsonWilliam GrantBarbara Flagg
The Independence Seaport Museum will create "Boat Building: Art and Science," a 3,000-square foot permanent exhibit that is designed to educate visitors about the science of boat building and design. Concepts such as buoyancy, water displacement, turbulence and drag will be explored through interactives, maritime artifacts, models and oral histories of tradesmen. By using the principles identified by the Family Science Learning Research Project of the Philadelphia/Camden Informal Science Education Collaborative (PISEC), the exhibit will be user-friendly for families with young children. Visitor workstation topics may include boat building, floating, buoyancy, sails, wind and boat shape. Visitors will use science processes while learning through open-ended play and exploration. Creative programs for families and school groups, as well as curriculum materials will support the exhibit. A website and technical training manual will also be produced. Four phases of evaluation are planned, and include front-end analysis which will incorporate focus groups with children ages 7-12, and formative evaluation using prototypes of interactives. Remedial evaluation will be carried out once the exhibit opens, and summative evaluation will use tracking and exit interviews to assess learning and understanding. The estimated annual audience of over 130,000 visitors will be expanded by replicating and traveling various components to other maritime museums in partnership with the Association of Science and Technology Centers. Evaluation of traveling components will also be undertaken to determine if they present an appropriate model for maritime-based exhibits.
The Exploratorium requests $1,389,665 to develop "Live @ the Exploratorium: Origins." The Exploratorium will conduct a three-year pilot project to develop an experimental series of Webcasts, related Web-based resources, and museum activities . The project will use new communications technologies to create an ongoing link between Internet and museum audiences and current scientific research efforts at observatories around the world where scientists are investigating the origins of matter, the universe, the Earth, and life itself. The Exploratorium will establish a remote connection to six science research locations investigating particle physics, cosmology, polar research, earthquake research, astrobiology and genetics. During each live Webcast museum visitors and Internet visitors will be able to interact with scientists at the remote observatories.