Investigations in Number, Data and Space is an elementary school mathematics curriculum which reflects research on, and best practices in, learning and teaching mathematics in grades K-5. NSF funded the development of the original curriculum, starting in 1990. This revision of the "Investigations" curriculum will focus on the integration of algebraic thinking throughout the curriculum, the development of comprehensive assessment tools, and the strengthening of the number and operations strand. This work is informed by feedback from the field, as well as by recent recommendations for improving the mathematics curriculum. These revisions will be carried out and tested in an established network of school system partners, teacher collaborators and educational leaders. In addition to revising the curriculum, the project will develop materials to support teachers as they implement the curriculum. Additional materials will be developed for parents and administrators. The summative evaluation of the project will include longitudinal student achievement data, following two groups of students for three years each. Cost sharing will include substantial contributions from the publisher, Scott Foresman, and the developer, TERC.
This 12-month planning grant will create the foundation for a project based on meaningful, online, game-based learning. Specifically, it will enable the proposer to develop and validate story lines and game characters with middle-school aged children in two summer design institutes. In addition, the proposer will build partnerships with museums and informal learning institutions and develop a plan to work with these partners for the dissemination, promotion, use and evaluation of the future games. Intellectual Merit: The project will develop standards-linked design specifications for play scenarios, game characters and real-world, problem-based activities across STEM domains. These design specifications should be of significant value for future educational game development. Children will serve as "informants" during game design, providing input where most effective. This involvement in the planning process is critical to the success of the games, and should ensure the desired "kid appeal." Broader Impact: The strategy of involving advisory groups of children, including those at-risk, will allow the project to factor in ways to engage audiences underrepresented in the sciences by tailoring characters and activities that ensure broad appeal. In addition, the approach of solving puzzle-like problems embedded in a game's story narrative should appeal to both boys and girls. This project will generate a report for publication on the design process and resulting specifications.
This project launches the creation of a new class of playground apparatus based on an emerging understanding of how students learn mathematics and science concepts. The equipment will be highly interactive and instrumented, providing opportunities for thoughtful, planned actions that children can evaluate with the aid of instrumentation. The design principles used are applicable to many mathematics and science topics, but this initial demonstration is restricted to creating units which embody some important concepts from classical mechanics. We will create, test, evaluate, and begin the dissemination of units incorporating timing, motion, and force sensor electronics designed to give children real- time, symbolic feedback to reflect their experiences. The first nine months will be devoted to the apparatus design, building, testing, safety evaluation, and formative research. We will install apparatus in three highly varied sites to evaluate the design. In a second phase, improved units will be built for one site and detailed research on student learning undertaken. If we observe the hypothesized learning, the approach we use in mechanics will have broad generalizability. This work could lead to interesting and highly educational apparatus addressing other science fields and useful in a broad range of informal learning environments.
The New York Hall of Science, in collaboration with the Lawrence Hall of Science, is producing and evaluating an application of recently available technology, the random-access audio player, which offers the promise of improving the effectiveness of learning at science-technology center interactive exhibits. The audio "tours" that are being produced and tested will have varying degrees of branching and layering appropriate to the nature of each exhibit unit design. A "highlights" audio tour will be created for the Lawrence Hall of Science and an audio tour focusing on a single group of light, color, and vision exhibits will be created for the New York Hall of Science. The audio tours will be tested with two different categories of audience at each site: the general public on weekends and schools groups on weekdays. Alan Friedman, Director of the New York Hall of Science, will be the Principal Investigator. The Lawrence Hall of Science will be represented by Brooke Smith. The audio tours will be written and produced by Steve Tokar, the producer of Science Today a daily radio science program on the CBS radio network. Beverly Serrell, Director of Serrell & Associates, will conduct the evaluation of the audio tours at each site.
Under the Planning Grant Guidelines The Invention Factory Science Center (IFSC) develop "The Invention Factory Science Center Phase One Plan". This new science center is the central component of mixed-use redevelopment effort at the 45-acre Roebling Industrial complex in Trenton, New Jersey. Phase One includes the development of a 3200 sq. ft. visitor's center which is scheduled to open in the Spring of 1997. The IFSC will develop "Pathways to Science and Technology: An Informal Science Learning System, which is to be an innovative, interactive computer-based system of activities designed to stimulate self-directed and continuous learning. It will have a strong regional/community base, will leverage resources from local academic, industrial, and educational institutions, and will be disseminated broadly via state-of-the-art telecommunications technology. The planning activities will include front-end evaluation of the needs and interests of the community, meetings of the advisory committee, the development of plans for the "Pathfinders" software program, and development of plans for the overall evaluation of the project. t the end of the twelve-month planning period they will have designs and cost-estimates for the interactive activities and a general plan for the Visitor center. The value that this planning grant adds to their effort is support to bring nationally recognized leaders in exhibit development and informal learning to the planning sessions.
The Great Lakes Science Center plans to enhance an existing facility by adding the Great Lakes Situation Room. This addition makes innovative use of live theater techniques to provide interactive programming for the visiting audience. The Great Lakes Science Center is a relatively new addition to the Informal Science arena but the visitation has double the expected projections. The programs for the situation room are: Science and Information Technology Show; Great Lakes Data Quest; My Own House Data Quest; and Mathematics All Around Us. These new programs, linked to the Great Lakes Environment and exhibitions throughout the facility will further enable the visitor to actually learn about science, environment, and technology using a unique format and "state of the arts" tools made available by informational technology. This project will impact a large, diverse audience in the Great Lake's area and beyond. It has the potential for replication in other museums and science centers. The goals of this project are to enhance the visitor's experiences and learning while at the science center. The themes for the programs will explore some popular topics among the visiting audience. This is a three-year project that will quintuple the programming capacity of the theater, enhance its role in providing Informal Science Education, provide new active learning experiences and expand the center's capacity for accommodating larger audiences of families and school students. The cost sharing for this award is 66.5% of the projected total budget.
TERC Inc. will conduct a one-year proof of concept study that includes the design, development, and research of two prototype science activities for the virtual Blue Mars Science Center located on the Blue Mars 2150 platform developed by Virtual Space Entertainment. Blue Mars is a science fiction-themed virtual world set on Mars far in the future and will be rendered in High Definition, an important incremental step in the development of highly realistic virtual worlds. It is in this virtual world context that the proposed learning activities and research are to be conducted. TERC's research will examine the challenges of learning in virtual environments and which types of tools and interactions can encourage and support collaboration, the results of which will advance both informal and formal learning in virtual worlds. Avatar tracking data, participant observations, interviews, and surveys will be used to study participants. The project has the potential to advance areas of computational visualization systems and cognitive science and will afford an array of learning opportunities using real time data. Millions of visitors to the Blue Mars world will be able to share in an unprecedented range of virtual activities and experiences. It is anticipated that the research will inform the future development of even more advanced immersive interactivity, such as avatar-based models and computationally-oriented interactivity. The study will serve as a basis for both further development of the Blue Mars Science Center and the advancement of research on science learning in virtual worlds. The investigators are interested in continuing to expand as the scientific community evolves in the virtual world. The online world has the potential to become a powerful attractor for the general public to engage in science learning.
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TEAM MEMBERS:
Jodi Asbell-ClarkeTeon EdwardsRichard Childers
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 AAAS is developing and testing a pilot phase of an on-line website science club for youth. Kinetic City Cyberclub will engage youth in episodic adventures to promote both group and independent exploration. Users will receive carefully crafted, paced challenges as they wind their way through a mystery or other related activity. The adventures will be presented over time in a series of episodes that require users to use science toward solving an on-going mystery or problem. Components of the on-line club will include: Story Pods which set up the problem and inform users of what has been learned to date; Clue Pods which include information and activities that users can add to their individual electronic notebooks; Experiment Pods where users will be able to try out different theories to solve immediate problems; Discussion Pods where questions will be posed to which users are encourage to respond; and a Voting Pods where users get to vote on the next direction the science exploration should take or on possible solutions to problems. Components of the web page will be updated on a regular basis with most of the content being changed weekly and, in some instances, daily. The PI will be Robert Hirshon of the AAAS who has been the key developer of The Kinetic City Super Crew, the radio series on which the Kinetic City Cyberclub is based. The Senior Producer responsible for developing and maintaining the website will be Kimberly Amaral. Ms. Amaral previously been a writer/web developer for the Woods Hole Oceanographic Institution's Coastal Research Center and Sea Grant and she has worked as a researcher/writer for Bill Nye the Science Guy. Dissemination and outreach will be a joint effort of the AAAS and the National Science Teachers Association. Evaluation will be conducted by Arthur C. Johnson, an independent evaluator and instructor at the Harvard Graduate School of Education.
The Consumers Union of U.S., Inc. will produce four half-hour television specials which focus on kids testing and evaluating popular products. This "real world" approach can motivate children to learn science and mathematics concepts and to develop problem-solving skills in the process of tackling everyday consumer problems. The approach is particularly effective with youth who are not print-oriented, who watch a lot of television, and who may find "formal" science and mathematics inaccessible. Outreach materials for viewers and for use in formal classes will extent the impact of the project. The PI and Project Director will be Joyce Newman, Director of Consumer Reports TV. Susan Markowitz, who produced the successful pilot program will be Producer and Edward Groth, a biologist who serves as Consumers Union Associate Technical Director for Public Service Projects, will be the Senior Science Advisor. Susan Isenberg will be a major science education advisor. Ms. Isenberg is an IBM Education Fellow and consultant to a number of New York and New Jersey school districts. She has a B.S. in Science Education, an M.S. in Education, and has been a teacher for 25 years. This core group will work closely with in-house scientists and education experts as well as with an advisory committee established for the project.
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TEAM MEMBERS:
Joyce NewmanEdward GrothSusan Markowitz
Each month, the American Institute of Physics (AIP) will produce twelve, 90-second television news reports that demonstrate the relevance of research to society, including animated descriptions of the underlying science principles. The peer-reviewed reports are offered for sale on an exclusive basis to one station in each of the 211 principal television markets. The service currently has 84 subscribers with the potential to reach approximately 62% of the total US television households. AIP is actively seeking additional stations that will purchase the service. They have plans for the service to become self-sustaining when 170 stations become subscribers. AIP has a working coalition with numerous scientific societies including American Geological Institute, American Mathematical Society, American Meteorological Society, American Society for Mechanical Engineers, and Universities Research Association. The television production staff relies on story ideas provided by the range of scientists represented in these societies as well as from journal articles, university press releases, and other findings from research institutions. Once a treatment is developed for a story, outside science experts are asked to review it for accuracy and to comment on its validity and reliability. A "Know More" web component offers audiences an opportunity to find out more information about a science story.
This project will produce an educational 30-minute DVD/TV film and interactive website with classroom materials about climate change and its effects on biota by presenting past and current research on the Adelie penguin, Antarctica's most accessible indicator species. The project will target students in grades 5-8. Each component of "Penguin Science" will present an engaging case study to teach students about ecology, the complex science of climate change and its impacts, both positive and negative. It will not only feature the work of David Ainley and co-PI's Grant Ballard and Katie Dugger, but also William Sladen who began the first NSF-sponsored penguin studies 48 years ago during the International Geophysical Year (IGY). Archival film clips of Sladen and his work from the 1970 documentary, "Penguin City" (CBS), will convey the value of long-term research and show biotic changes during just one professional lifetime. The project will be completed in 2007 to coincide with the International Polar Year.