This white paper is the product of the CAISE Formal-Informal Partnerships Inquiry Group, which began work during a July 2008 ISE Summit organized by CAISE. Their examination of what the authors call "the hybrid nature of formal-informal collaborations" draws on relevant theoretical perspectives and a series of case studies to highlight ways in which the affordances of formal and informal settings can be combined and leveraged to create rich, compelling, authentic, and engaging science that can be systematically developed over time and settings.
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 Buffalo Society of Natural Sciences plans to conduct a 5 year project to train 150 mentor teachers (30 teachers/year) and their principals, who will then train the remaining 1100 elementary teachers in the Buffalo Public School System. The training would include two 5-week summer sessions (in a Magnet school that is physically incorporated into the Buffalo Museum of Science) and 4 in-service workshops during the academic years following each of the summer workshops. This innovative leadership project is a collaborative effort between the Buffalo Society of Natural Sciences (including both education and curatorial/science staff persons) the Buffalo Public Schools, and individuals from local colleges and universities. The setting of the project is enhanced by a Science and Math Magnet School which is housed within the museum, and by the school/museum's location in a largely inner city environment with easy accessibility to minority persons. The project is designed to provide mentor teachers with a strong science background in pedagogy and content over a two-year period of summer and academic-year workshops, and to prepare and support these mentors as they inservice their colleagues. Project staff from the museum, public schools, and the academic community will provide strong support through academic-year workshops, site visits and telecommunications networking. Principals will be appropriately involved, and will work with mentors to develop a science inservice program tailored to meet the needs of their individual schools; as a consequence, virtually all of the 1100 K-6 classroom teachers of science in the Buffalo Public Schools will have been prepared to teach investigative, hands-on science to their students. Non-NSF cost sharing is approximately 27.9% of the amount requested from NSF.
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TEAM MEMBERS:
Peter Dow
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
The Franklin Institute proposes to establish the Science Learning Network (SLN), a unique online collaborative of science museums, industry and schools to support the teaching and learning of science, mathematics and technology (SMT) in grades K-8. The SLN will integrate the educational resources offered by science/technology centers with the power of telecomputing networking to provide powerful new support for teacher development and science learning. By December 1997 the SLN will develop and evaluate the following: UniVERSE - an online SMT database and software package which will provide interactive capabilities to actively and intelligently assist K-8 classroom teachers in their Internet explorations, much like an electronic "librarian." Online Museum Collaborative - a national consortium of science museums (The Franklin Institute, the Exploratorium, Oregon Museum of Science and Industry, Museum of Science - Boston, and Science Museum of Minnesota) that will pool their resources and expertise to create online assets and provide ongoing professional development on telecomputing networking for precollege SMT teachers. Online Demonstration Schools - a network of K-8 schools, working in collaboration with consortium museums and Unisys Corporation volunteers as demonstration sites for online teaching and learning in SMT. Over the course of three years, the SLN will provide direct support to 180 teachers and 3,000 K-8 students in the online demonstration schools. Through existing teacher networks, each museum will offer professional development for an additional 200 teachers each year. The Urban Systemic Initiatives in Philadelphia and Miami offer the potential for broader, systemic impact in those cities. By the end of the grant period, the SLN will provide field- tested models of a new kind of online SMT community through the collaboration of science museums with industry and schools. The sustainable impact of the SLN will be assured by UniVERSE's status as a publicly accessible database and software package and the development of the national consortium of online museums, whose network resources will be made available on an ongoing basis to educators. The three-year formative development of the online demonstration schools will contribute vital data to precollegiate school reform in SMT, showing how schools build capacity to become members of the online community and demonstrating how teaching and learning are enhanced by online resources. Unisys Corporation has pledged its support to this project and will provide matching funds for up to 40% of the total NSF award.
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TEAM MEMBERS:
Stephen BaumannWayne RansomPaul Helfrich
Maine is a rural state with unequal access to computers and information technology. To remedy this, the Maine laptop program supplies iBooks to every seventh and eighth grade student in the state. The goal of EcoScienceWorks is to build on this program and develop, test and disseminate a middle school curriculum featuring computer modeling, simple programming and analysis of GIS data coupled with hands-on field experiences in ecology. The project will develop software, EcoBeaker: Maine Explorer, to stimulate student exploration of information technology by introducing teachers and students to simple computer modeling, applications of simulations in teaching and in science, and GIS data manipulation. This is a three-year, comprehensive project for 25 seventh and eighth grade teachers and their students. Teachers will receive 120 contact hours per year through workshops, summer sessions and classroom visits from environmental scientists. The teachers' classes will field test the EcoScienceWorks curriculum each year. The field tested project will be distributed throughout the Maine laptop program impacting 150 science teachers and 17,000 middle school students. EcoScienceWorks will provide middle school students with an understanding of how IT skills and tools can be used to identify, investigate and model possible solutions to scientific problems. EcoScienceWorks aligns with state and national science learning standards and integrates into the existing middle school ecology curriculum. An outcome of this project will be the spread of a field tested IT curriculum and EcoBeaker: Maine Explorer throughout Maine, with adapted curriculum and software available nationally.
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TEAM MEMBERS:
Walter AllanEric KlopferEleanor Steinberg
resourceprojectProfessional Development, Conferences, and Networks
The proposed CAREER study uses a comprehensive mixed-methods design to develop measures of motivational beliefs and family supports for Spanish and English speaking Mexican-origin youth in high school physical science. The research examines a three-part model which may provide a deeper understanding of how Mexican families support youth through their general education strategies, beliefs about physical science, and science specific behaviors. This approach incorporates motivation and ecodevelopmental theories while pursuing an innovative line of research that examines how the contributions of older siblings and relatives complement or supplement parental support. The study has four aims which are to (1) to develop reliable, valid measures of Mexican-origin adolescent motivational beliefs and family supports in relation to high school chemistry and physics, (2) to test whether family supports predict motivational beliefs and course enrollment, (3) to test how indicators in Aim 2 vary based on gender, culture, English language skills and relationship quality, and (4) to examine how family supports strengthen or weaken the relationship between school-based interactions (teachers and peer support) and the pursuit of physical science studies. Spanish and English-speaking Mexican-origin youth will participate in focus groups to inform the development of a survey instrument which will be used in a statistical measurement equivalence study of 300 high school students in fulfillment of Aim 1. One hundred and fifty Mexican high school students and their families will participate in a longitudinal study while students progress through grades 9-12 to examine Aims 2- 4. Data to be collected includes information on science coursework, adolescent motivational beliefs, supports by mothers and older youth in the family, and family interactions. All materials will be in English and Spanish. The educational and research integration plan uses a three pronged approach which includes mentoring of doctoral students, teacher outreach, and the evaluation of the ASU Biodesign high school summer internship program using measures resulting from the research. It is anticipated that the study findings will provide research-based solutions to some of the specific behaviors that influence youth motivation in physical sciences. Specifically, the study will identify youth that might be most affected by an intervention and the age of maximum benefit, as well as valid, reliable measures of youths' motivation that can used in interventions to measure outcomes. The study will also identify family behaviors that may be influenced, including education strategies for school preparation, beliefs about physical science, and sciece-specific strategies such as engaging in science activities outside school. The findings will be broadly disseminated to science teachers, scholars, and families of Mexican-origin youth. This multi-tiered approach will advance current scholarship and practice concerning Mexican-origin adolescents' pursuit of physical science.
The Developmental Studies Center is supporting the active involvement of parents in their children's mathematical development, helping parents understand more about how their children learn mathematically and socially, and increasing the likelihood that children will discuss mathematics with an adult who is significant in their lives. The first phase of this project develops, pilot tests, and evaluates a Homeside Math resource book for each grade level, K-2, with activities teachers can send home to foster positive interaction about mathematics between parents and their children. These activities are related to exemplary school curricula, particularly those developed with NSF support. The next phase develops a limited number of additional activities to add to the Homeside Math collection to be published as Community Math. Community Math is a resource book for youth workers with activities that foster mathematical discussions between children ages 5-8 and a significant adult and can be used in a variety of community organization settings and sent home for family use. Workshops are developed for parents, teachers, and youth workers to strengthen their knowledge of child-centered instructional strategies, meaningful activities, and how children develop mathematically and socially. And facilitator workshops are developed for parents, teachers, and youth workers to enable them to lead workshops for parents.
The New Mexico Museum of Natural History and Science proposed to develop an outreach science and mathematics program with a parent involvement and teacher enhancement professional development component. The goals of the project are as follows: (1) to involve parents in their children's education; (2) to promote a positive attitude on behalf of parents and students toward science and mathematics; (3) to increase teachers' level of comfort in teaching science; and (4) to enhance teacher's confidence in the hands-on approach as an effective method for teaching science. The objectives for the parent component of this project are: acquaint parents with the national and state science education goals and standards; introduce parents to activities that can be done at home with children; and provide families with materials and activity sheets that can be used at home. The objectives for the teacher component of this project are: (1) to provide teachers with opportunities for increased communication with parents about science literacy for children; (2) provide professional development for teachers on the use of hands-on science activities in the classroom; and (3) to providing bilingual activity guides and kits containing materials to encourage science learning. The methods for implementing this project will be varied according to the needs of the target audiences. Parents and children will be engaged through parent workshops and multi-aged children's activities conducted at the museum by experienced science educators. The professional development for teachers' component of this project will include an extensive summer workshop, on-going training/ planning sessions during the school calendar year and session on the uses of the bilingual teaching manuals. The cost sharing for this NSF award is 46.7% of the total project cost.
Blue Mountain Films, in association with the American Museum of Natural History, is producing a multi-component project on biodiversity that will examine closely the risks we face if the web of life on Earth is progressively diminished. The central component of the project will be a large format film that seeks to locate and understand humans' place in, and impact upon, the natural order of life on this planet. The film will be based on what appears to be a critical paradox: while we humans, like all living things, have always been dependent upon natural systems for our survival, our unique cultural development and technological prowess have convinced us that we are somehow "above" nature. As a corollary theme, the Life in the Balance film will examine the urgency of the scientific effort to explore and understand ecosystems and the flora and fauna they contain before their unique genetic information is lost due to human actions. In addition, the film will convey an appreciation of how science actually is done in the field. The film will be augmented by: * The Life in the Balance Bookshelf of material currently being developed by the new National Center at the American Museum of Natural History: * Biodiversity: An Action Guide aimed at encouraging children and their families to explore together topics and issues surrounding biodiversity. * Teacher's Curriculum-Biodiversity Counts designed as a middle school-based activity that encourages students to engage in scientific exploration and discover the diversity of species in their own neighborhoods. * Book of Essays designed as a resource book for high school students and their teachers. * Teacher/Educator's Guide consisting of hands-on science activities that can be used independently of the film and as preparation for viewing and/or following screenings of the film. * Life in the Balance "Interactive" Poster with a four-color acetate overlay of pictures which, wen pulled away, reveals a seco nd sheet with science information. * Fun Facts Brochure with biodiversity facts and questions presented in a simple, fun fashion, such as quizzes and games. * Life in the Balance Website feature family activities, an extinction conference section, and a bio-bulletin. * Life in the Balance National Training Institute, a 10 day workshop brining together teams of science educators from community organizations, schools, and science centers and museums. The PI and producer/director/writer of the film will be Bayley Silleck who served in these same roles for the Cosmic Voyage film. The Co-PI and producer will be Jeffrey Marvin. The principal scientist will be Thomas Eisner, Jacob Gould Schurman Professor of Chemical Ecology at Cornell University. This production team will work closely with an advisory committee that includes Jane Lubchenco, Peter H. Raven, Edward O. Wilson, Andrew Peter Dobson, Myles Gordon, Mary Elizabeth Murray-Wilson, and Lee Schmitt.
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TEAM MEMBERS:
Bayley SilleckJeffrey MarvinThomas Eisner
Two 8 to 10 week modules, one focusing on cells and the other on reproduction and heredity, serve as the basis for the development of a comprehensive, assessment-driven, middle school science curriculum called "Science for Today and Tomorrow." A curriculum frramework is developed for Life and Physical Sciences to be taught in Grades 6 and 7 and Earth Science in Grade 8. The research-based materials assist students to develop a working knowledge of a core set of ideas that are fundamental to the discipline and ultimately to see how the concepts span the disciplines. The student materials and the teachers' guides are enhanced with classroom-tested assessments and web-based content resources, simulations and tools for gathering and interpreting data. On-line professional development materials allow teachers to gain content knowledge and pedagogical skills. The website also contains an area that provides information for administrators including strategies for supporting teachers and another area for community members to involve them in the students' science learning. The project builds upon the lessons learned in previous materials development projects at TERC.
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).