MIT Education Arcade, in partnership with the Smithsonian Institution, designed and developed Vanished, an eight-week environmental science game as a new genre called the curated game, a hybrid of museum-going, social networking, and online gaming. Middle school aged participants engaged in Earth systems science to study a range of environmental issues associated with mass extinction. Though the game was structured around a fictional scenario--communication with visitors from the future--it posited a future affected by current environmental issues and conditions, and encouraged participants to apply systems thinking as a means to understand how these current conditions led to environmental disruptions. As part of the game play participants studied, applied, and integrated knowledge and skills from multiple sources, including Earth science, ecology, astronomy, and archaeology, and forensic anthropology. An Advisory Board and contributing scientists were be involved. The project team is currently analyzing data collected from the game to test the hypothesis that the game play would allow youth, ages 11-14, to increase their understanding of the scientific process and increase their motivation to learn more science. This summative evaluation is being conducted by TERC Inc. A Curated Game Handbook will be produced to disseminate project results as a model for new applications of game-based learning. Open source software created as part of the game has been made available, and should enable future developers in informal science education to build directly upon these foundational efforts.
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TEAM MEMBERS:
Eric KlopferConrad LabandeiraScot OsterweilStephanie Norby
This planning grant will enable The Indiana State Museum (ISM) to develop "The Science Behind the History," a program of live interactive video distance learning that includes multiple components and state-wide partners. The project is based on "ISM Live!," which uses a satellite van with video broadcast system to deliver programs from diverse historic settings throughout Indiana. Intellectual Merit. This project will add scientific components to interpretations of settings that usually are presented from social or cultural perspectives, including hands-on experiments at the remote broadcast-receiving sites. Scientists and historians will both be involved in the activities along with the audience participants. Broader Impact. Diverse, multigenerational audiences throughout Indiana will be reached through this project. In addition, it will provide a new model for interactive distance learning, as well as help establish partnerships among educational and community organizations that may lead to other beneficial long-term outcomes.
The Educational Film Center will complete production of a science, engineering, and technology careers exhibit and informal science education project for use in science museums, libraries, schools, and community locations. The twelve additional interactive and linear career profiles to be produced under this grant will bring the total number of careers available in a fully interactive mode to thirty-two. Users will be able to explore each of these careers with first person video profiles of people in science and engineering and animated/reality video simulations of work experiences in these fields. The exhibit also with provide guidance to help users make decisions about education and career choices and will include a database of information about approximately 200 additional science and math-based professions. The project also will undertake the development and testing of eight permanent model Family Outreach Science Career Education Centers in eight cities. These centers will be based on and will expand upon the experience the project had in their earlier model Parent Outreach Science Career Program. Utilization support will be provided through special target leader guides, presentations and workshops at national and regional meetings of user organizations and groups, and a SETQuest bulletin board and e-mail network for the exchange of user science career programming. This project is a collaborative effort among four organizations: The Educational Film Center (EFC) is responsible for management of the project and for the development of production of the software and the documentary video profiles; COMAP is responsible for selecting and hiring content consultants, for formative and summative evaluation, and will jointly market and distribute the material with EFC; The New York Hall of Science is responsible for the exhibit kiosk and graphics, the design and development of the workbook and museum installation print components of the project, and will serve as principal test site for the exhibit; and the AAAS is coordinating the design, implementation, and testing of parent outreach program. All of the organizations will be involved in presentations and dissemination of project information to the informal and formal education communities.
The Educational Film Center (EFC) is developing a science, engineering, and technology careers exhibit for distribution to science museums and technology centers. The core of the exhibit kiosk, with related career graphics surrounds, is SET/QUEST, an interactive multimedia program for both Macintosh and PC/Windows using CD-Rom as the full motion video source. Teens and preteens will enter an interactive exploration of thirty careers with first person video profiles of people in science and engineering; animated/reality video simulations of a work experience in these fields, decision screens, and a database of over 200 more science and math-based professions. The documentary profiles, database, and a personal interest career match component will also be developed in alternative media formats (video, audio, print) for broad distribution to community and youth education networks, schools, and libraries. Specific emphasis in this project is being placed on reaching and attracting female, minority, and disabled youth. A parent outreach component has been developed and will be implemented by the Directorate of Education & Human Resources Programs of AAAS. The concept of the parent effort is to work directly with and through the national offices of four major national organizations with different institutional community roots -- Science Museums, Public Libraries, Schools, and Community Based Organizations -- to involve parents and families with SET Project materials and to provide them with information with which they can foster their children's pursuit of science and math education and careers in these fields. Initial efforts will be conducted in 18 cities. The project is a collaborative endeavor among three organizations: The Educationa l Film Center which will be responsible for management and development/production of the software and documentary video profiles; The New York Hall of Science which will be responsible for the exhibit kiosk and graphics, will design and develop the student workbook and user installation print, will serve as the principal test site for the exhibit, and will advise on software, interactive multimedia design, and installation options; and COMAP which will be responsible for direct involvement of the Advisory Board, for selecting and hiring content consultants, for assuring the accuracy of the science and math content, for formative and summative evaluation, and for developing and preparing community leader and school users guides for publication. Stephen Rabin, President of EFC, will serve as PI for the project.
The videodisc-based exhibit, the Powers of Ten in Time, will allow museum visitors to explore the unseen world of natural change - events that occur too quickly or too slowly to be perceived. Through the use of a touch screen and interactive software, users will be able to, in effect, speed up or slow down timeto witness changes that lie outside of the limits of human time perception. Visitors will see scenes such as a forest recovering after a fire, a wall of earth crumbling from erosion, tides coming in and out, the intricate motions of complex machinery and molecules colliding and reacting to produce fire. The videodiscs will contain more than 100 short video segments depicting a wide range of phenomena. We will use time-lapse footage, slow-motion clips and animations to show changes occurring over time periods form 300,000,000 to femtoseconds. Not only will museum visitors be able to watch these video segments at their own pace and in order they choose, they will also be able to learn more about such phenomena through on- screen textual and graphical explanations. The goal of the project is to engage museum visitors with captivating photographic segments, explain the phenomena shown with supplemental text and graphics, and stimulate them to look at the world in a new way - not just with their eyes, but with their minds and imaginations.
The Scientific Reasoning Research Institute at the University of Massachusetts, Amherst will conduct a feasibility study for engaging museum visitors in data analysis through this planning grant. Intellectual Merit: This project builds on the extensive prior work of the PI in developing Tinkerplots software for middle school students. At the same time, it potentially takes advantage of the many museum exhibitions that include various kinds of data but provide no mechanisms for visitors to analyze the data and draw conclusions. This project makes the connection by seeking to demonstrate the proof of concept for the transfer of this data analysis program from the formal to the informal setting. Broader Impact: This project will purposefully test three very different settings -- Museum of Science, Boston, MA; Naismith Basketball Hall of Fame, Springfield, MA; and Missouri Botanical Garden, St. Louis, MO -- to explore the advantages and limitations of this approach in those learning environments. If successful, the software could have very wide application.
This project will research distributed, online fantasy basketball games, which are quite popular with many kinds of players, including informal science education under-represented groups, and which entail some degree of informal statistical reasoning and decision-making strategies. The game is not playing basketball per se, but taking on the role of a team owner or coach who needs to decide how best to compose a team given necessarily limited resources. The research team will provide a method for framing and researching statistical understanding and decision making of expert and novice players, then, based on the research, will develop scaffolded techniques for helping players become more reflective on and adept with the statistical knowledge and decision making strategies they use.
In every drop of water, down at the scale of atoms and molecules, there is a world that can fascinate anyone - ranging from a non-verbal young science student to an ardent science-phobe. The objective of Learning Science Through Guided Discovery: Liquid Water & Molecular Networks is to use advanced technology to provide a window into this submicroscopic world, and thereby allow students to discover by themselves a new world. We are developing a coordinated two-fold approach in which a cycle of hands-on activities, games, and experimentation is followed by a cycle of computer simulations employing the full power of computer animation to "ZOOM" into the depths of his or her newly- discovered world, an interactive experience surpassing that of an OMNIMAX theater. Pairing laboratory experiments with corresponding simulations challenges students to understand multiple representations of concepts. Answers to student questions, resolution of student misconceptions, and eventual personalized student discoveries are all guided by a clear set of "cues" which we build into the computer display. Moreover, the ability to visualize "real-time" dynamic motions allows for student-controlled animated graphic simulations on the molecular scale and interactive guided lessons superior to those afforded by even the most artful of existing texts. While our general approach could be applied to a variety of topics, we have chosen to focus first on water; later we will test the generality of the approach by exploring macromolecules such as proteins and DNA. The simulation sofware we have been developing embodies a simple molecular interaction model but requires leading edge computing in order to (1) apply the model to large enough systems to yield simple and realistic behavior, and (2) animate the result in real time with advanced graphics. Our ultimate goal in this project is not only to help students learn science, but also to help them learn to think like research scientists. By looking at scientific knowledge as a set of useful models - models that are essentially temporary and will inevitably lead to better ones - they can see that science is not a set of facts, but a method for discovering patterns and predictability in an otherwise disordered and unpredictable world. Through mastery of the simulation software, students will gain the self-confidence to embark on their own missions of discovery.
The goal of this project is to educate children between the ages of 10 and 18 about the ecology of insects and forests, how human activities affect their interaction, and how scientific research is conducted. It will disseminate information throughout Indiana based on research award DEB 0345331, Cicadas and Forests Education. For a period during May and June 2004 the United States was captivated by periodical cicadas in an unusual convergence of popular and scientific interest. This project will use this heightened awareness as a vehicle for informal science education as additional broods emerge in 2007 and 2008 in the Midwest and South. The project will use existing video footage from the research to produce a documentary film on periodical cicadas for airing on public television stations and distribution on DVDs to schools; an interactive computer-based presentation in PowerPoint; and an interactive 3-D animation of the cicada life cycle for use in a science center. Project collaborators include local public television stations, Wonderlab (a science museum), the Indiana State Museum and school systems in Indiana.
The Lawrence Hall of Science at the University of California at Berkeley will develop the "Real Astronomy Experience (RAE)" in which science center visitors will explore the universe by controlling and viewing robotic telescopes via the Internet; by using image processing software to understand the images they capture; and by capturing images with a hands-on, functional telescope equipped with a Charge-Coupled Device (CCD) camera to learn how a modern telescope image-capture system works. Guided by project materials, visitors learn about the cosmos, tools and methods of scientific research, data analysis and the general progress of modern astrophysics.
Intuitive Company researchers and evaluators assessed four components of the DUST Alternate Reality Game for potential reusability: 1) QTE Environment during Collapse, 2) Brain/Health Scanner Mobile App, 3) Microbe Web App, 4) Star Map Web App. We assessed reusability based on five variables (facilitation, user identification, digital access, player type, and timing) along a continuum of informal to formal learning contexts, from museums to after school programs to formal classroom settings. Our assessment revealed that the: 1. QTE Environment during the Collapse is most replayable in its
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Brigham Young University, University of MarylandJes KoepflerNidhi JalwalVictor Yocco
Dinosaur Island is a 3D computer simulation with herds of sauropods and ceratopsians, flocks of pteranodons, hunting packs of carnivores and authentic plants and trees from over 65 million years ago all controlled by the user. You can think of Dinosaur Island as a digital terrarium in which a balance between the species and their diets must be maintained or the ecosystem will collapse. It is up to the user to determine how many and what kinds of dinosaurs and plants populate the island. Start off simple with just a few sauropods and some plants; but you better make sure that those big plant-eaters have the right food to eat. Did you know that many of the plants from the Jurassic were poisonous? You also need to make sure that there are some carnivores around to keep those sauropod herds in check; otherwise they will quickly outstrip their food supplies. Dinosaur Island is an Adventure: Yes, it is a bit like those famous movies because you can take 'photographs' of your dinosaurs, save them, post them and share them with your friends (you can even 'name' your dinosaurs, 'tag' them and track them throughout their lives). You will be able to walk' with the dinosaurs without being trampled under their giant feet. You will be able to follow along when a female T-Rex goes out to hunt without fear of becoming dinner for her family. You will be able to 'garden' by 'planting' vegetation where you like and watch the plants grow over time. Dinosaur Island is Educational: Our reputation – both in our 'serious games' and our contracted simulations – is for historical accuracy. All of our computer games, serious games and simulations are meticulously researched. Dinosaur Island will also include an extensive hyperlinked interactive 'booklet' about the dinosaurs that live on Dinosaur Island, their habitat and the plants and vegetation that grow there. Designasaurus, the game that we created in 1987, was named Educational Game of the Year. We will exploit the computer environment that is now available (more memory and faster machines allow for 3D rendering) to make Dinosaur Island even more of an immersive educational experience. Dinosaur Island is Fun: Playing with herds of dinosaurs is just good fun. You can 'pick them up' and move them around, plant crops for them to eat or you can even 'get inside' a dinosaur and control its actions. Regardless of your age, Dinosaur Island is guaranteed to be hours of fun.