This Research Advanced by Interdisciplinary Science and Engineering (RAISE) project is supported by the Division of Research on Learning in the Education and Human Resources Directorate and by the Division of Computing and Communication Foundations in the Computer and Information Science and Engineering Directorate. This interdisciplinary project integrates historical insights from geometric design principles used to craft classical stringed instruments during the Renaissance era with modern insights drawn from computer science principles. The project applies abstract mathematical concepts toward the making and designing of furniture, buildings, paintings, and instruments through a specific example: the making and designing of classical stringed instruments. The research can help instrument makers employ customized software to facilitate a comparison of historical designs that draws on both geometrical proofs and evidence from art history. The project's impacts include the potential to shift in fundamental ways not only how makers think about design and the process of making but also how computer scientists use foundational concepts from programming languages to inform the representation of physical objects. Furthermore, this project develops an alternate teaching method to help students understand mathematics in creative ways and offers specific guidance to current luthiers in areas such as designing the physical structure of a stringed instrument to improve acoustical effect.
The project develops a domain-specific functional programming language based on straight-edge and compass constructions and applies it in three complementary directions. The first direction develops software tools (compilers) to inform the construction of classical stringed instruments based on geometric design principles applied during the Renaissance era. The second direction develops an analytical and computational understanding of the art history of these instruments and explores extensions to other maker domains. The third direction uses this domain-specific language to design an educational software tool. The tool uses a calculative and constructive method to teach Euclidean geometry at the pre-college level and complements the traditional algebraic, proof-based teaching method. The representation of instrument forms by high-level programming abstractions also facilitates their manufacture, with particular focus on the arching of the front and back carved plates --- of considerable acoustic significance --- through the use of computer numerically controlled (CNC) methods. The project's novelties include the domain-specific language itself, which is a programmable form of synthetic geometry, largely without numbers; its application within the contemporary process of violin making and in other maker domains; its use as a foundation for a computational art history, providing analytical insights into the evolution of classical stringed instrument design and its related material culture; and as a constructional, computational approach to teaching geometry.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
Purpose: There is concern about a decline in mathematics achievement scores among U.S. students during the middle school years. For example, while 4th grade U.S. students rank 8th overall on an international mathematics comparison, by 10th grade U.S. student's drop significantly to 25th in the same comparison. Some researchers posit that much of this decline relates to how math is taught in the U.S. and with how students become less engaged as learners in middle school. The purpose of this project is to develop a web-based game to engage 7h grade students in a narrative-based story which will apply learning of content and skills aligned to the Common Core State Standards (CCSS) in mathematics.
Project Activities: During Phase I in 2012, the team developed a functioning prototype and conducted usability and feasibility research with fourteen 7th grade students. Researchers found that the prototype functioned as intended and that students were highly engaged while playing the game. In Phase II, the team will develop a fully-functional user interface with animated characters, interactivity across student users, narrative scripts and accompanying art assets, 36 problem sets, and student and teacher dashboards and databases. After development is complete, a pilot study will examine the usability and feasibility, fidelity of implementation, and the promise of the game to improve math learning. The study will include 120 students in 6 classrooms in three schools, with one classroom per school randomly assigned to use the game and the other half assigned to a business-as-usual control. Analyses will compare student scores on pre and post mathematics measures.
Product: Empires is a web-based game that addresses 36 pre-algebra Common Core State Standards in mathematics for 7th and 8th grades. The game follows a storyline in a recreation of an ancient empire which is at the brink of agricultural revolution and of becoming a trade economy. As students play the game, they engage in math-focused activities to drive the action, such as taxing citizens to learn ratios and proportions, allocating resources to learn percentages, and measuring the distance and time between a neighboring empire by applying the principles of the Pythagorean Theorem. As a socially networked game, students will interact with other students in the class to complete trades that lead to encounters with different math problems. The game will include two helpful, funny, advisors who will scaffold learning through mathematical discourse, arguing over the next most important thing to do. The game design architecture will work on a wide range of computers, including desktops and iPads. A teacher's guide and companion website will provide guidance to classroom activities that complement the game.
The Virginia Institute of Marine Science (VIMS) and The Watermen's Museum, Yorktown, VA, will produce an underwater robotics research and discovery education program in conjunction with time-sensitive, underwater archeological research exploring recently discovered shipwrecks of General Cornwallis's lost fleet in the York River. The urgency of the scientific research is based upon the dynamic environment of the York River with its strong tidal currents, low visibility, and seasonal hypoxia that can rapidly deteriorate the ships, which have been underwater since 1781. Geophysical experts believe that further erosion is likely once the wrecks are exposed. Given the unknown deterioration rate of the shipwrecks coupled with the constraints of implementing the project during the 2011-2012 school-year, any delays would put the scientific research back at least 18 months - a potentially devastating delay for documenting the ships. The monitoring and studying of the historic ships will be conducted by elementary through high school-aged participants and their teachers who will collect the data underwater through robotic missions using VideoRay Remotely Operated Vehicles (ROVs) and a Fetch Automated Underwater Vehicle (AUV) from a command station at The Watermen's Museum. Students and teachers will be introduced to the science, mathematics, and integrated technologies associated with robotic underwater research and will experience events that occur on a real expedition, including mission planning, execution, monitoring, and data analysis. Robotic missions will be conducted within the unique, underwater setting of the historical shipwrecks. Such research experiences and professional development are intended to serve as a key to stimulating student interest in underwater archeological research, the marine environment and ocean science, advanced research using new technologies, and the array of opportunities presented for scientific and creative problem solving associated with underwater research. A comprehensive, outcomes-based formative and summative, external evaluation of the project will be conducted by Dr. L. Art Safer, Loyola University. The evaluation will inform the project's implementation efforts and investigate the project's impact. The newly formed partnership between the Waterman's Museum and VIMS will expand the ISE Program's objectives to forge new partnerships among informal venues, and to expand the use of advanced technologies for informal STEM learning. Extensive public dissemination during and after the project duration, includes but is not limited to, hosting an "Expedition to the Wrecks" web portal on the VIMS BRIDGE site for K-12 educators providing real-time results of the project and live webcasts. The website will be linked to the education portal at the Association for Unmanned Vehicle Systems International, the world's largest organization devoted to promoting unmanned systems and to the FIRST Robotics community through the Virginia portal. The website will be promoted through scientific societies, the National Marine Educators Association, National Science Teachers Association, and ASTC. Links will be provided to the Center for Archeological Research at the College of William and Mary and the Immersion Presents web portal--consultants to Dr. Bob Ballard's K-12 projects and JASON explorations. The NPS Colonial National Historic Park and the Riverwalk Landing will create public exhibits about the shipwreck's archeological and scientific significance, and will provide live observation of the research and the exploration technologies employed in this effort.
This article discusses a 1988-1990 study that analyzed the effectiveness of a collaborative effort between a museum and a school system to build an integrated curriculum package. The partners included the York County School System (VA) and the Yorktown Victory Center (operated by the Jamestown-Yorktown Foundation). The theme of the curriculum was 18th Century Medicine and the unit was designed to enhance the science, math, and social studies instruction of fourth graders.
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TEAM MEMBERS:
Ronald GieseJudy Davis-DorseyJoseph Gutierrez
resourceprojectProfessional Development, Conferences, and Networks
The Triangle Coalition for Science and Technology Education initiated the Albert Einstein Distinguished Educator Fellowship program in 1990. This program provides outstanding secondary mathematics and science teachers with an opportunity to serve in the national public policy arena. NSF funding will support an Einstein Fellow in the Informal Science Education (ISE) program. The Fellow will bring practical insight derived from being a classroom teacher to ISE and contribute to the program development and management. The ISE program supports large regional and national projects targeting informal learners that include linkages to formal education. The Einstein Fellow can contribute feasible suggestions on how those linkages can occur, while learning about the proposal development, submission, peer review and award process. The 11-month experience will enable the educator to learn about the field of informal science education from a national perspective through direct interaction with practitioners and participation in professional development. Collegial exchange occurs monthly as Fellows serving in other Federal agencies meet to discuss their experiences. Additionally, participants are required to submit three written reports to document their experiences.
Learning to Work with the Public in the Context of Local Systemic Change is a five-year Teacher Enhancement initiative to build a knowledge base and develop the necessary tools and resources for teachers and administrators to engage with their parents and public in pursuit of quality mathematics, and to prepare teacher leaders and administrators to successfully lead these efforts in their schools. The project has three major components: (1) focused and sustained work with teachers, administrators, school boards, parents and the public in strategically located current and potential NSF-supported Local Systemic Change communities; (2) the development and implementation of mathematics sessions and materials designed for parents/public and informed by the project's research/findings, and the preparation of teacher leaders and administrators to conduct these sessions within their own communities; and (3) dissemination conferences and other outreach activities. More specifically, the project will (a) engage in studies that identify the elements critical for successful intervention with parents and the public, (b) develop materials that can be used by lead teachers and other educational leaders to work with peer teachers and the broader public in their home communities, and (c) provide the professional development necessary to support implementation. The plan of work for the project is designed around the following questions: (1) What does it take to secure a public that is knowledgeable of issues in mathematics education and knowledgeable of what it means to teach important and relevant mathematics for understanding? (2) Will a knowledgeable public support and/or actively advocate for mathematics reform? If so, what is the nature of their advocacy? (3) What impact will a knowledgeable and/or proactive public have on the efforts of current and potential Local Systemic Change (LSC) projects to improve the quality of mathematics instruction in schools? (4) Are there critical times during mathematics restructuring efforts when parent engagement is essential? If so, what are those times and what is the nature of support needed? (5) What are the critical issues and caveats that need to be considered in designing and delivering successful mathematics education sessions for parents and the public? (6) What kinds of public engagement can best be accomplished by teacher leaders working within their own communities? What kinds of support do local leaders need in order to work successfully with parents and the public? (7) What kinds of public engagement can best be accomplished by national mathematics education leaders who come into a community on a limited basis? The work to be performed in the project is a carefully designed effort to develop a more practice-based understanding of the critical elements needed for productive public involvement in support of quality mathematics. Sites participating in the plan of work are Portland (OR), St. Vrain (CO), and San Francisco (CA). Resources and tools (e.g., deliverables) planned include professional development materials that can be used by teacher leaders and administrators as they work with peer teachers, as well as with parents and the public; rough-cut video tapes that are potentially useful in these professional development sessions; and a website. Cost sharing is derived from participating school districts and the Exxon and Intel Foundations.
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TEAM MEMBERS:
Ruth ParkerJaneane GolliherDominic PeressiniLisa Adajian
The Education Development Center, Incorporated, requests $2,081,018 to create informal learning opportunities in science, mathematics, engineering and technology utilizing the study of the ancient African civilization of Nubia as context. Educational activities and resources will be developed based on the extensive ongoing archeological research on historical Nubia. The two main components of the project are a traveling exhibit with related educational materials and a website that will provide the target audience an opportunity to access extensive on-line resources and activities. The project will provide community outreach and professional development for educators in museums, community groups, schools and libraries. The project is designed for thirty-six months' duration. In year one, a network of collaborators in the Boston area will focus on research and development; in year two, project materials will be piloted and evaluated in six cities, and on-line professional development programs will be conducted; and in year three, project materials will be disseminated directly to 60 sites and more broadly via the internet.
NEON, Inc. a not-for-propfit corporation, proposes a television series for children, initiallyu 30 programs, suitable for daily or weekly broadcast, for home viewing via PBSA (with appropriate availability elsewhere). Program length: 30 Minutes. The premise: Three Wufniks--creatures from the cartoom world--draw their way into our world and with the help of children, undertake the adventure of finding our what it's all about. Thesek characters (played by adult professional performers in structurally sophisticated fantasy/animal costumes), move from dthe uncertain world of animated film into a range of encounters with ourrock-solid environment, get to know children and adults, scientists and laypeople, and must continually reconstruct their naive theories and their image of life on earth. The concept, designed to appeal to five- to nine-olds, combines education with entertainment (and is inclusive of other age groups, such as parents, to enhance educational effect). School and other non-broadcast distribution of program elements is planned, plus ancillary materials including computer software and print. The educational approach is interdisciplinary, with emphasis both on content and the development of positive attitudes towards science and mathematics; sub-objectives geography and history. The Principal Investigators are a television producer experienced in science programming for children, and a scientist with extensive children's educational television background. Program appeal for girls and minorities is integarl to the design; project staff will also cover a broad spectrum. Encouragement of science-and math-related audience activities is a project objective. Planning includesds extensive outreach and promotion related to the show premise.
Blackside, Inc. is producing a television series and an outreach component about minority scientists. The goals of the six-hour prime-time series, "Breakthrough: People of Color in Science," are to raise the consciousness of the general public that is largely unaware of the significant contribution of scientists of color and to provide role models that will encourage young people to consider science and engineering careers. The programs will feature the work of contemporary African-American, Latino and Native American scientists and engineers who are active in cell biology, astrophysics, applied mathematics and other fields of science. The stories of their scientific achievements will present both women and men, old and young, at different stages of their careers, and will explore the professional, educational and social worlds they live and work in. Viewers will have immediate access to a comprehensive follow-up effort that will connect them with local, regional and national opportunities in informal science education. Blackside will collect information from existing resources and institutions as well using source material from several extensively researched databases geared toward minority students. Using all of this information, Blackside will create a metadatabase that will connect teachers, parents, mentors, and students to a rich variety of educational programs: extracurricular classes, mentoring programs, national science contests, teacher training workshops, and a myriad of on-line services. To ensure immediate access and, where possible, to customize the information to viewers needs, Blackside will disseminate it through a variety of means: an 800-number with a direct fax-back capability, an on-line service, a CD-ROM, and a printed packet delivered by mail. A principal target audience is gatekeepers in students' lives: parents, teachers, and scientists interested in becoming mentors. The target audience also includes students from fourth th rough twelfth grades. Joseph Blatt will serve a PI for this project and co-executive producer for the television series. His previous experience include serving as executive producer of "Scientific American FRONTIERS" and as a producer/director for several NOVA programs. He also has been executive producer for three television series/college credit courses in mathematics. Henry Hampton will be the other co-executive producer. He was the creator and executive producer of the 14-hour, award winning series, "Eyes on the Prize," about America's civil rights movement. The principal educational consultant will be Ceasar McDowell, assistant professor of education at the Harvard Graduate School of Education. Michael Ambrosino, the original executive producer of NOVA, will be the principal science television consultant.
This project, WALKING ON WATER, chronicals the success of Jaime Escalante's nationally acclaimed mathematics program at Garfield High School in Los Angeles. Overcoming crime, poverty and a 50% drop-out rate, Mr. Escalante transformed Hispanic students with deficient scholastic backgrounds into the top calculus students in the country. As a result of this success, Garfield High School is now a magnet school for math and science in the Los Angeles School District. Mr. Escalante's story will be told in a 90 minute film docudrama which will air nationally on public television's American Playhouse series, the 14th most popular program on PBS reaching 1.2 million homes. The film is designed for general theatrical release, for educational distribution on cable, for videocassette release and will be dubbed into Spanish for airing in Spanish theaters. In addition, Eddie Olmas, the Emmy award winning star of Miami Vice who portrays Mr. Escalanate in the film, will use the film in personal appearances. Reviewers all agree that this story will inspire and motivate students and teachers alike. They also agreed that it is equally important to reach other significant audiences such as parents, school administrators and opinion leaders so that they will understand and support these types of education efforts.
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TEAM MEMBERS:
Thomas MuscaRamon MenendezKate Long
resourceprojectProfessional Development, Conferences, and Networks
This is a two-year planning project that will support planning activities to provide a basis for further STEM education reform in the Greater Mohawk Valley of New York. These include different workshops for school administrators and teachers preparing them to support student research and venues for students to present the results of their research. Perhaps even more importantly it will provide an alternative path for assessment of districts' STEM educational goals. The 25 years of Utica College's support and programming of student research activities will provide a rich background for assessment of the effectiveness of student learning in science, mathematics and technology through such activities.
This is a request from Claypoint Productions for 124,700 of a total budget of $526,178 to produce a one-hour prime-time documentary program on the Wright Brothers, the processes of science and engineering used in their work, and the science and technology behind their development of the airplane. The PBS program will cover the subjects of aerodynamics, aeronautics, geometry, algebra, applied mathematics, mechanical engineering, the process of invention, and the history of technology. A teacher's guide will be developed to supplement the film.