The goal of the project is to advance understanding of basic questions about learning and teaching through the development of a theory of embodied mathematical cognition that can apply to a broad range of people, settings and activities. The investigative team brings together expertise from a range of quantitative and qualitative research methodologies. A theory of embodied mathematical cognition empirically rooted in classroom learning and workplace practices will broaden the range of activities and emerging technologies that count as mathematical, and help educators to envision alternative forms of bodily engagement with mathematical problems.
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TEAM MEMBERS:
Ricardo NemirovskyRogers HallMartha AlibaliMitchell NathanKevin Leander
"Local Investigations of Natural Science (LIONS)" engages grade 5-8 students from University City schools, Missouri in structured out-of-school programs that provide depth and context for their regular classroom studies. The programs are led by district teachers. A balanced set of investigations engage students in environmental research, computer modeling, and advanced applications of mathematics. Throughout, the artificial boundary between classroom and community is bridged as students use the community for their studies and resources from local organizations are brought into school. Through these projects, students build interest and awareness of STEM-related career opportunities and the academic preparation needed for success.
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TEAM MEMBERS:
Robert CoulterEric KlopferJere Confrey
resourceprojectProfessional Development, Conferences, and Networks
QuarkNet is a national program that partners high school science teachers and students with particle physicists working in experiments at the scientific frontier. These experiments are searching for answers to fundamental questions about the origin of mass, the dimensionality of spacetime and the nature of symmetries that govern physical processes. Among the experimental projects at the energy frontier with which QuarkNet is affiliated is the Large Hadron Collider, which is poised at the horizon of discovery. The LHC will come on line during the 5-years of this program. QuarkNet is led by a group of teachers, educators and physicists with many years of experience in professional development workshops and institutes, materials development and teacher research programs. The project consists of 52 centers at universities and research labs in 25 states and Puerto Rico. It is proposed that Quarknet be funded as a partnership among the ESIE program of EHR; the Office of Multidisciplinary Activities and the Elementary Particle Physics Program (Division of Physics), both within MPS; as well as the Division of High Energy Physics at DOE.
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TEAM MEMBERS:
Mitchell WayneRandal RuchtiDaniel Karmgard
This research oriented project integrates the informal and formal science education sectors, bringing their combined resources to bear on the critical need for well-prepared and diverse urban science teachers. It represents a partnership among The City College of New York (CCNY), the New York Hall of Science (NYHOS), and the City University of New York Center for Advanced Study in Education (CUNY-CASE). It integrates the Science Career Ladder, a sustained program of informal science teaching training and employment at the NYHOS, with the CCNY science teacher preparation program. The longitudinal and comparative research study being conducted is designed to examine and document the effect of this integrated program on the production of urban science teachers. Outcomes from this study include a new body of research related to the impact of internships in science centers on improving classroom science teaching in urban high schools. Results are being disseminated to both the informal science education community (through the Association for Science and Technology Centers and the Center for Informal Learning in Schools, an NSF supported Center for Learning and Teaching situated at the San Francisco Exploratorium) and the formal education community (through the National Science Teachers Association and the American Educational Research Association).
The Science Career Ladder program engages undergraduates as inquiry-based interpreters (Explainers) for visitors to the NY Hall of Science. Integrating this experience with a formal teacher certification program enables participants to coordinate experiences in the science center, college science and education classes, and K-12 classrooms. Participants receive a license to teach science upon graduating. The approach has its theoretical underpinnings in the concept of situated learning as noted by Kirshner and Whitson (1997, Situated Cognition: Social, Semiotic and Psychological Perspectives, Mahwah, NJ: Erlbaum). Through apprenticeship experiences, situated learning recreates the complexity and ambiguity of situations that learners will face in the real world. Science centers provide a potentially ideal setting for situational learning by future teachers, allowing them to develop, exercise and refine their science teaching and learning skills as noted by Gardner (1991, The Unschooled Mind, New York: Basic Books).
There is a well-documented shortage of science teachers in urban school districts. The causes of this shortage relate to all phases of the teacher professional continuum, from recruitment through training and retention. At the same time, the demographic composition of American teachers is increasingly out of synch with the demographics of the student population, raising concerns that a critical shortage of role models may be at hand, contributing to a worsening situation in urban schools. In the face of these challenges many innovative teacher recruitment and teacher preparation programs have been developed to augment traditional pathways to teaching. These programs range from high school academies for students expressing an interest in teaching to the recruitment and training of individuals making mid-life career changes. The CLUSTER program described above represents a new alternative. There are more than 250 science centers in the United States. Many of these have extensive youth internship programs and collaborative relationships with local colleges. Therefore, the proposed model is widely applicable.
Arizona State University (ASU) in collaboration with Arizona Science Center, Boeing, Intel, Microchip, Motorola, Salt River Project, AZ Foundation for Resource Education, AZ Game & Fish Department, US Partnership for the Decade of Education for Sustainable Development, Mesa Public Schools, and Boys & Girls Clubs of the East Valley, offer a three-year extracurricular project resulting in IT/STEM-related learning outcomes for 96 participants in grades 7, 8, and 9. The project targets and engages female and minority youth traditionally under-represented in IT/STEM fields in multi-year out-of-school technological design and problem solving experiences. These include summer internships/externships and university research in the science center and industrial settings where participants develop socially responsible solutions for challenging real world problems. The program includes cognitive apprenticeships with diverse mentors, opportunities to practice workplace skills such as leadership, teamwork, time management, creativity and reporting, and use of technological tools to gather and analyze complex data sets. Participants simulate desert tortoise behaviors, research and develop designs to mitigate the urban heat island, build small-scale renewable energy resources, design autonomous rovers capable of navigating Mars-like terrain, and develop a model habitat for humans to live on Mars. Together with their families participants gain first-hand knowledge of IT/STEM career and educational pathways. In addition to youth outcomes, the adults associated with this project are better prepared to positively influence IT/STEM learning experiences for under-represented youth. The evaluation measures participant content knowledge, attitudes and interest in IT/STEM subjects, workplace skills and intentions to pursue IT/STEM educational and career pathways to understand participant reactions, learning, transfer and results. Informal curricula developed through this project, field-tested with youth at Boys & Girls Clubs and youth at Arizona Science Center will be available on the project website.
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TEAM MEMBERS:
Tirupalavanam GaneshMonica ElserStephen KrauseDale BakerSharon Robinson-Kurplus
The Learning and Youth Research and Evaluation Center (LYREC) is a collaboration of the Exploratorium, Harvard University, Kings College London, SRI International and UC Santa Cruz. LYREC provides technical assistance to NSF AYS projects, collects and synthesizes their impact data, and oversees dissemination of progress and results. This center builds on the Center for Informal Learning in Schools (CILS) that has developed a theoretical approach that takes into account the particular strengths and affordances of both Out of School Teaching (OST) and school environments. This foundation will permit strengthening the potential of the NSF AYS projects to develop strong local models that can generate valid and reliable data that can guide future investment, design and research aimed at creating coherence across OST and school settings. The overarching questions for the work are: 1. How can OST programs support K-8 engagement and learning in science, and in particular how can they contribute to student engagement with K-8 school science and beyond? 2. What is the range of science learning outcomes OST programs can promote, particularly when in collaboration with schools, IHE's, businesses, and other community partners? 3. How can classroom teachers and schools build on children's OST experiences to strengthen children's participation and achievement in K-12 school science Additionally, the data analysis will reveal: 1. How OST programs may be positioned to support, in particular, high-poverty, female and/or minority children traditionally excluded from STEM academic and career paths; and 2. The structural/organizational challenges and constraints that exist to complicate or confound efforts to provide OST experiences that support school science engagement, and conversely, the new possibilities which are created by collaboration across organizational fields. Data will be gathered from surveys, interviews, focus groups, evaluation reports, and classroom and school data.
This proposal, the "Dan River Information Technology Academy (DRITA)," is a request for a three-year program for high school students from underserved populations who are interested in pursuing IT or STEM careers. The overall goal of DRITA is to provide opportunities for promising African American or Hispanic youth to (1) develop solid Information Technology skills and (2) acquire the background and encouragement needed to enable them to pursue higher education in STEM fields, including IT itself and other fields in which advanced IT knowledge is needed. A total of 96 students will be recruited over the course of the three years. Each DRITA participant will receive 500 hours of project-based content. The project includes both school-year modules and a major summer component. Delivery components will include a basic IT skills orientation; content courses in areas such as animation, virtual environment modeling, advanced networking, programming, GIS, robotics, and gaming design; externships; a professional conference/trade show "simulation," and college/career counseling. Parent involvement is an integral part of the program and includes opportunities for parents to learn from participants, joint college visits, and information sessions and individual assistance in the college admission process.
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TEAM MEMBERS:
Julie BrownElizabeth NilsenMaurice Ferrell
resourceprojectProfessional Development, Conferences, and Networks
Rhode Island Information Technology Experiences for Students and Teachers (RI-ITEST) is a comprehensive ITEST project for high school students and teachers. The goal of RI-ITEST is to prepare students from diverse backgrounds for careers in information technologies by engaging them in exciting, inquiry-based learning activities that use sophisticated computational models in support of a revolutionary science curriculum. It advances science education by enhancing the Physics First initiative in Rhode Island through the use of NSF funded student materials based on molecular modeling and promotes IT education by teaching modeling skills and providing students with career and vocational information on the use of computational models. The project provides over 120 hours of credit-bearing activities for 100 teachers and full support for classroom implementation. RI-ITEST is developing an optimal placement of the interactive materials from CC's Science of Atoms and Molecules project in the Physics First courses in Rhode Island; developing IT materials that are coordinated with the student materials that emphasize modeling skills and the career and vocational dimensions of computational modeling; preparing100 diverse Rhode Island science teachers in two cohorts to offer a course in the Physics-Chemistry-Biology sequence; developing materials and supports for using molecular dynamics and related IT materials for teachers in Rhode Island and elsewhere who are not ITEST participants; generating evidence for the effectiveness of the IT-enhanced project materials for increasing student learning and changing student attitudes about science, mathematics, and technology careers; reaching parents, guidance counselors, school administrators, and business partners with information about the project, student productions, and evidence for effectiveness; disseminating materials and findings to other teachers, programs, and districts nationwide.
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TEAM MEMBERS:
Daniel DamelinGerald KowaiczykJames Magyar
resourceprojectProfessional Development, Conferences, and Networks
The Nanoscale Science and Engineering Education (NSEE) Center for Learning and Teaching (NCLT) would focus on the research and development of nano-science instructional resources for grades 7-16, related professional development opportunities for 7-12 teachers, and programs infused with nano-science content for education doctoral students. The Center would bring together educators and scientists from several areas of nano-science and engineering research to collaborate with science teachers and doctoral candidates in education on both the development of the resources and research on their efficacy. The PI has prior experience as director of the Materials World Modules project, an NSF-funded curriculum currently in use in several secondary schools across the country. Lead partners in the proposed Center are Northwestern University, Purdue University, University of Michigan, University of Illinois at Chicago and University of Illinois at Urbana-Champaign. Additional partners include Argonne National Laboratory, West Point Military Academy, Alabama A & M University, Fisk University, Hampton University, Morehouse College and University of Texas at El Paso. The additional partners will widen the geographic range of the project, expanding opportunities to reach a diverse and currently underrepresented population of graduate students, teachers and ultimately students. STEM and Education faculty and researchers from the partner institutions would participate in interdisciplinary teams to address the Center's mission: Provide national education leadership and resources for advancing NSEE Create and implement professional development programs in NSEE Use innovative ideas in learning to design instructional materials for grades 7-16 Conduct research relating to integration of NSEE into science, technology, engineering and mathematics (STEM) education.
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TEAM MEMBERS:
R. P. H. ChangThomas MasonNcholas GiordanoJoseph Krajcik
This project augments an NCES data collection effort for the High School Longitudinal Study by including 150 additional schools in up to 10 selected states to create state representative samples of at least 40 schools in each state. NCES will create a contract with a survey organization to collect survey data from students in about 800 schools starting at the 9th grade and following them to age 26. The student, teacher, and parent survey data will be merged with state administrative data. Thus the final data set for these states will include detailed longitudinal data on student education histories, test scores, courses, demographics, and other survey information about parents and teachers. In some of the states the student data will be linked with detailed teacher data. The purpose of this augmentation is to provide support for additional schools to create state samples. NSF will also be involved in planning for future surveys of these students as they reach college age.
A Youth-Directed Cafe Scientifique targets culturally, ethnically, and economically diverse youth ages 11-18 with a web-based program designed to engage students in active discourse on current STEM topics. Building on the adult program of the same name, this youth-centered project also provides opportunities for individual and group activities. Project partners include Los Alamos National Laboratory, the Bradbury Science Museum, Sandia National Laboratory, Los Alamos Women in Science, and the University of New Mexico, which will serve as a source of scientists to act as speakers and mentors. Northern New Mexico Collefe, Santa Fe Community College, University of New Mexico, and theNew Mexico Museum of Natural History and Science, as well as area high schools will host discussions and focus group meetings. Recruitment of youth participants will be carried out by New Mexico MESA as well as four local high schools. Project deliverables include a robust model for engaging youth in an active online community and Youth Leadership Teams (YLT). YLT's select topics, recruit members, and facilitate Cafe discussions and blogs. Cafe meetings enable youth to explore a topic of their choice in an online session led by a youth host in conjunction with a guest speaker. The follow-up sessions encourage more in-depth exlopration of the topic via interviews, articles, community meetings, and museum exhibits created in collaboration with the Bradbury Museum. The Cafe website will highlight youth produced podcasts, essays on science topics, and a blog. Strategic impact resulting from this project includes the development of a creattive model that effectively engages youth in STEM discourse while meeting the cultural and intellectual needs. It is anticapated that this project will serve over 5,700 youth in three years.
This is a proposal for a 3 year, $1,297,456 project to be conducted as collaboration among 5 higher education institutions and one school system across the country, with St. Joseph's University in Philadelphia, PA serving as the lead institution (other collaborators are from Colorado School of Mines, Ithaca College, Santa Clara University, Duke University, and Virginia Beach School System). The primary goal is to attract and retain students in computer science, especially women and underrepresented minorities (including two EPSCoR states). To this end, the project will use Alice, a software program that utilizes 3-D visualization methods, as a medium to create a high-level of interest in computer graphics, animation, and storytelling among high school students, hence to build understanding of object-based programming. Such an IT focus on media and animation is aligned with national computer science standards. The project will build a network of college and high school faculty, who will offer workshops and provide continuing support during the academic year. In each site, pairs of teachers from each participating school (total = 90) will learn with university faculty via a 3-week summer program in which an introduction to using Alice for teaching will be followed by teacher development of materials for students that will then be used to teach high school students. An experimental start at one site will be followed by implementation at four additional sites and culminated with revised implementation at the sixth site (1-4-1 design).