This work analyses how the theme of the creation of thinking machines by man, particularly through artificial intelligence, is dealt with on stage, with reference to three plays addressing different topics and characterised by different types of performance. This analysis reveals the particular effectiveness of plays dealing with scientific topics, when the relationship between theatre and science results in reflections transcending the boundaries of its contents to address man and his essence and gives voice to the ancient question of the sense of the world.
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
Theatrical action can bring out the value of the exhibits of a museum, while creating a new way of experiencing the exhibitions. Theatrical actions link education and entertainment, consequently becoming a highly effective didactic instrument. The advantages of theatre are briefly outlined, considering it as an interpretative technique to communicate science from the point of view of the goals pursued by museums, of epistemology and of theatrical research.
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.
National Musical Arts is requesting a planning grant of $50,000 to conduct initial planning and research toward the development of a traveling exhibition and related educational programming on the subject of biomusic -- the musical sounds produced by living things. The work will be performed by the BioMusic project, a program of National Musical Arts, in collaboration with the Association of Science Technology Centers and a national team of informal science educators. The goal of the project is to develop a 2,500 square-foot traveling exhibit and related programs targeted to md-sized science centers, zoos and aquaria across the country. During the proposed one-year planning phase, the Biomusic Project and ASTC will work with an interdisciplinary team of scientists, musicians, exhibit developers and educators to understand the current state of biomusic research; to identify concepts and phenomena that could make strong visitor experiences; and to develop initial plans for the exhibit and programs. The result of the work of the planning phase will include a Biomusic Groundwork Report, a Biomusic Program presented at the annual ASTC Conference and a detailed Exhibition Prospectus.
The New England Aquarium proposes to develop a traveling exhibition based on recent research implicating human activities in the worldwide increase in jellies. Humans are changing oceans so that they are becoming more suitable for jellies than for fish. The exhibition is expected to reach 12 million people -- primarily families with school-aged children -- across the nation. No jelly exhibit to date has shown jellies as important indicator species and ecosystem linchpins. Dissemination will include materials and programs for school and community outreach. A Sea Jelly Activity Kit and a community art/science program will be developed. In each year of the project approximately 100 urban teens will intern in the jelly culturing facility, where they can learn about the science of culturing jellies and present their experiences to the public.
The MIT Media Laboratory, in collaboration with six museums, will develop the "Playful Invention and Exploration (PIE) Network," with the goal of engaging a broader audience in science inquiry and engineering by enabling more people to create, invent and explore with new digital technologies. PIE museums will integrate the latest MIT technologies and educational research into their ongoing public programs. The museums will organize MindFest events, modeled after a two-day event at MIT in 1999, at which youth, educators, artists, engineers, hobbyists and researchers came together to collaborate on invention projects. The PIE Network will disseminate PIE ideas and activities to educators and families nationally.
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TEAM MEMBERS:
Mitchel ResnickNatalie RuskBakhtiar MikhakMike PetrichKaren Wilkinson
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.