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 sixth through eighth grade comprehensive, project-based, science curriculum focuses on students acquiring deep understandings of the concepts, principles and habits of mind articulated in national science standards. The curriculum builds upon the experiences of the Center for Learning Technologies in Urban Schools developing the LeTUS modules for Chicago and Detroit Public Schools. The project brings together scientists and science educators from three universities, teachers and administrators from six school districts, curriculum speialists from Project 2061, educational researchers from EDC, and Kendall/Hunt publishers. The design principles, arising from research on teaching and learning, include alignment with standards, assessments, contextualization, sustained student inquiry, embedded learning technologies, collaboration, and scaffolds between and within modules. Phase 1 focuses on the development of two units: Structure of Matter and Diversity of Life and Evolution. Learning outcomes are identified, target understanding performances are specified and assessments are designed before the activities are developed. Everday authentic questions that students hold as important provide the basis for projects, contextualize the activities and give coherence to the curriculum. In addition to the student materials and teacher guides, the project develops materials to provide information to administrators and the community to understand and support the implementation of the modules. Issues of language, literacy, culture and diversity are addressed. Professional development materials address teacher attitudes and beliefs while educating the teachers about the new context and pedagogy.
Parent Partners in School Science (PPSS) is a partnership project between The Franklin Institute and the Philadelphia School District. This is a three and one-half year program which will provide a pivotal role for the informal science learning center to be a facilitator in parental support of K-4 school instruction in science. The PPSS program will involve teachers, families and children in grades K-2 the first year, grades 1-3 the next, and finally grades 2-4 in the third year. The incorporation of the national science standards and working with Home and School Associations (HSA) in the area schools, the program will impact over 3600 children, 5400 parents and 45 educators participating over the life of the project. There are several goals and elements in the program. This will certainly demonstrate how an informal science center supports learning and it is also hoped to become a model for effective parent-teacher and parent-child collaboration to support learning. There will be Exploration Cards developed, which are at-home schince challenges for families, Discovery Days that are museum-based days of science inquiry using the yearly theme, Parent/Teacher Workshops at the museum, and finally a Science Celebration which is a showcase of participants' year-long achievements via an exhibit to be displayed at The Franklin Institute for a month, then traveling the exhibit to participating schools. The project's structure, disseminination acitivites and products are designed for national application and as a model for use in both formal and informal education communities. It is hoped the program will offer new opportunities for science center methology and pratice to provide direct support for the school agenda in science.
Family Science: Expanding Community Support for Inquiry-based Science is the University of Washington's innovative five-year plan for reaching youth and families in the Seattle school district. This program represents an enhancement of the NSF-funded Family Science program targeting grades K-5 and expansion of this successful program to include middle and high school students. The proposed activities, Science Explorations, Inquiry Science Conferences and Community Celebrations, are designed to help parents understand inquiry-based science instruction while heightening students' confidence in their ability to understand science processes. The hands-on activities also support and complement Seattle's Local Systemic Change project by enlisting teachers, parents and community members to champion science education outside of the formal school setting. The implementation strategy includes workshops to train Family Science Lead Teachers and Parent/Community Leaders to coordinate Family Science programs. Subsequent partnerships between teachers and community organizations are designed to establish regional clusters of community networks to support programmatic activities during and beyond the funding period. It is estimated that Family Science will result in the presentation of nearly 300 school and community-based events impacting 10,000 individuals.
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TEAM MEMBERS:
Leroy HoodEthan AllenDana RileyPatrick Ehrman
resourceprojectProfessional Development, Conferences, and Networks
The purpose of this project is to enhance African American parental involvement with high school student children by developing skills and strategies for effectively managing the educational careers of their children. It would create a capacity for collaborations with the schools that service African American children by developing the social and organizational infrastructure for continued parental involvement in educational careers. It seeks to increase enrollment and success of Black students in higher-level mathematics and science courses to diminish the race gap in math and science track placements. It uses a quasi-experimental design to implement a series of community workshops designed to enhance knowledge, skills, and strategies for managing placements of children in science and math tracks. The research would create an intervention designed to change the outcome of students. It would conduct ethnographic work to map successful pathways to enrollment in higher-level math courses. It would use findings from these studies to implement workships within the Black communities, and conduct statistical analysis of the growth in achievement as a result of the reduction in course taking.
This project develops an 8-week middle-school mathematics module that introduces cryptography, the science of sending secret messages, while teaching and reinforcing the learning of related mathematical concepts. The topics range from the classical encryption systems and the historic context in which they were used through powerful modern encryption systems that provide secrecy in electronic messages today. The module also covers passwords and codes that correct errors in the transmission of information. Public awareness of the importance of cryptography is growing, as is the need to understand the issues involved. The study of cryptography provides an interesting context for students to apply traditional mathematical skills and concepts. Mathematical topics covered include percents, probability, functions, prime numbers, decimals, inverses and modular arithmetic. The main product is a middle-school student book, with accompanying teacher materials. A web site is being developed that supports the activities in this book. Abbreviated modules for Grades 3, 4 and 5 are also being developed, as well as an instructor's guide for adapting the materials for use in informal educational settings such as museums and after-school programs. The development of the module involves piloting and field-testing by experienced classroom teachers from diverse school communities and instructors of informal educational programs. Evaluation includes review by mathematicians and educators, as well as an investigation into the level of students' understanding of the topics studied.
The long-running and highly successful National Public Radio series "Science Friday" is venturing in new directions. Given that basic research underlies all of the technological advances influencing our world and that tax dollars pay for that research, the public needs to be informed about the basics of research. To address this need for public education, "Science Friday" will examine the importance of research as a theme underlying all science and technology changes by: Finding the research roots at the bottom of each story; Exploring the cooperation among corporations, private institutions, and research foundations and illuminating how each plays a role in the research process; Following the research "bumps" along the road to illustrate that research success depends upon failures -- not all research produces positive results; Illuminating the barriers to successful research; Helping listeners understand the thought process of researchers; Scaling the "ivory tower" by enabling listeners to question and talk directly with researchers; and Helping listeners understand the role of basic research in policy-making. Ira Flatow, the host, will take "Science Friday" on the road and produce programs in Oklahoma, Iowa, Michigan, Massachusetts, Arizona and other locations. He also will visit schools and universities and will speak at public events. NPR also will reactivate the "Science Friday Kids Connection" which will take each week's program and its guest scientists directly into classrooms across the country.
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.
The Lunar and Planetary Institute (LPI) will use $286,915, or 67% of a $430,373 total project budget, over three years to develop "SkyTellers," a space science and astronomy resource for small informal (and formal) learning settings such as planetariums, museum classes, school and community libraries, youth groups and home school settings. LPI educators and science staff, in consultation with a Native American master story teller, evaluation consultants, and an advisory board, will develop 12 SkyTeller topics. Each SkyTeller topic pairs a myth or legend (primarily but not exclusively Native American) with a relevant science story (Sky Story/Science Story) that explains our current understanding of the phenomenon that the ancient tale sought to explain. Ancillary materials (illustrations produced by LPI graphics staff, images from the latest in space science missions and research) will complete the 12 story sets to be used by informal and formal science educators at a variety of venues. Extensive formative and summative evaluation (alpha and beta testing) at multiple test venues is designed to insure high quality informal science education products.
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TEAM MEMBERS:
Stephen MackwellStephanie ShippJoseph Hahn
The Tech Museum of Innovation and Stanford University School of Medicine Department of Genetics have established longterm partnership to enable the public to draw connections between modern genetics research and choices they face about their health. Together we will develop, produce, evaluate, and disseminate Life's New Frontier, a dynamic exhibition which will inform the public about the goals and methods of modern genetics. Interactive permanent exhibits and guided learning centers, staffed jointly by museum educators and by working scientists (predominantly Stanford graduate students and postdoctoral fellows), will take the public into the minds and laboratories of scientists who are revolutionizing biomedical science. The exhibition and associated public and school programs will emphasize the emerging discipline of bioinformatics, which is fundamental to the Human Genome Project, gene-based diagnosis, rational drug design, and treatment of disease. Life's New Frontier will open in the summer of 2003 to reach an estimated 1.5 million diverse people annually through museum and online visitation. It will set a new standard for the treatment of cutting-edge science in exhibitions by establishing an infrastructure that permits rapid changes to exhibit content, and creating opportunities for visitors to receive personalized science and health updates after their visit. The exhibition also will serve as a platform to foster continuing personal interaction among middle and high school students, Stanford faculty and students, and the general public. The Tech/Stanford partnership will be maintained through staff liaison positions at each partner institution and will be evaluated to assess its effectiveness. We hope to extend this model to other departments at the Stanford University School of Medicine, and to disseminate it as a model for other science center/university partnerships in biomedical sciences. We anticipate significant outcomes of this partnership: the pblic will be better able to apply the ideas of modern genetics to decisions about their health; and a broad range of students from diverse backgrounds will be inspired to pursue biomedical education and research.