Communicating modern biotechnologies is certainly no easy task. To tackle such a complex and future-oriented assignment, help may arrive, paradoxically, from the past, from ancient rhetorical tradition, and in particular from Aristotle, the most renowned rhetoric teacher of all time. In his Rhetoric, Aristotle suggested that to be persuasive speakers should make use of widely accepted opinions (endoxa), i.e. the common sense shared by all. Common sense is expressed in common truths and value-laden maxims. Common sense, however, is not flat but dialectical, in that it includes contrasting
This award is for a Science and Technology Center devoted to the emerging area of nanobiotechnology that involves a close synthesis of nano-microfabrication and biological systems. The Nanobiotechnology Center (NBTC) features a highly interdisciplinary, close collaboration between life scientists, physical scientists, and engineers from Cornell University, Princeton University, Oregon Health Sciences University, and Wadsworth Center of the New York State Health Department. The integrating vision of the NBTC is that nanobiotechnology will be the genesis of new insights into the function of biological systems, and lead to the design of new classes of nano- and microfabricated devices and systems. Biological systems present a particular challenge in that the diversity of materials and chemical systems for biological applications far exceeds those for silicon-based technology in the integrated-circuit industry. New fabrication processes appropriate for biological materials will require a substantial expansion in knowledge about the interface between organic and inorganic systems. The ability to structure materials and pattern surface chemistry at small dimensions ranging from the molecular to cellular scale are the fundamental technologies on which the research of the NBTC is based. Nanofabrication can also be used to form new analytical probes for interrogating biological systems with unprecedented spatial resolution and sensitivity. Three unifying technology platforms that foster advances in materials, processes, and tools underlie and support the research programs of the NBTC: Molecules of nanobiotechnology; Novel methods of patterning surfaces for attachment of molecules and cells to substrates; and Sensors and devices for nanobiotechnology. Newly developed fabrication capabilities will also be available through the extensive resources of the Cornell Nanofabrication Facility, a site of the NSF National Nanofabrication Users Network. The NBTC will be an integrated part of the educational missions of the participating institutions. NBTC faculty will develop a new cornerstone graduate course in nanobiotechnology featuring nanofabrication with an emphasis on biological applications. Graduate students who enter the NBTC from a background in engineering or biology will cross-train in the other field by engaging in a significant level of complementary course work. Participation in the NBTC will prepare them with the disciplinary depth and cross-disciplinary understanding to become next generation leaders in this emerging field. An undergraduate research experience program with a strong mentoring structure will be established, with emphasis on recruiting women and underrepresented minorities into the program. Educational outreach activities are planned to stimulate the interest of students of all ages. One such activity partnered with the Science center in Ithaca is a traveling exhibition for museum showings on the subject of nano scale size. National and federal laboratories and industrial and other partners will participate in various aspects of the NBTC such as by hosting interns, attendance at symposia and scientist exchanges. Partnering with the industrial affiliates will be emphasized to enhance knowledge transfer and student and postdoctoral training. This specific STC award is managed by the Directorate for Engineering in coordination with the Directorates for Biological Sciences, Mathematical and Physical Sciences, and Education and Human Resources.
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.
The Museum of Science and Industry will develop "Genetics: Decoding Life," a 4325 sq. ft. permanent exhibit about the basic principles of genetics, the Human Genome Project, new tools and technology to study life, and the biomedical and biotech applications resulting from genetic information. As a result of interacting with this exhibit, visitors will understand the basic principles of genetics, they will become familiar with the role of genes in the development of life, they will learn something about how and why scientists used genetic tools, and visitors will become aware of applications of these principles and the potential social, ethical, medical and economic outcomes. In addition to the exhibit there will be a number of complementary outreach programs. An electronic web site will be created, software used in the exhibit will be modified into a format suitable for use in schools, computers loaded with genetic programs will be loaned to Chicago public school groups, churches and other community agencies, and the content of the exhibit will be used to enhance special Lamaze and prenatal classes held at the museum. Special consideration will be given to developing the relationship between the project personnel and the staff of the Chicago Systemic Initiative. They will work together to produce a school program about genetics that will be suitable for grades 5 to 8. School materials will include a teacher's guide for the exhibit, a program of classroom activities, and materials to be used before and after a trip to the museum to see the exhibit.
The Informal Science Education Program has been supporting the radio series "Living on Earth" for several years. The World Media Foundation is now adding environmental science and technology features to "Living on Earth" and is developing and testing an outreach component that will involve youth as researchers and radio producers. The science and technology features, ranging in length from four to twenty-four minutes, will depart from the usual news-driven reports on the programs. Many of the segments will illustrate basic building blocks of environmental science, technology and related mathematics. Others will profile diverse pioneers in these disciplines. The radio programs will be the framework for an interdisciplinary exploration program for youth. Working with a team of educators from the Antioch University Graduate Program in Environmental Education, the project staff will develop a program in which secondary school aged youth cooperate with peers to produce professional, concise reporting on local environmental issues. Living on Earth will feature the best of the student work on National Public Radio and highlight these pieces as an expanded feature on its website.
Rutgers University is developing a large-format, scientific, documentary film about the evolving scientific investigation of deep-sea hydrothermal vents. Volcanoes of the Abyss (working title) will be produced in conjunction with Volcanic Ocean Films and produced/directed by Stephen Low. It will examine the communities these vents support and their relationship to the surrounding environment. It also will consider the implications vent discoveries have for our understanding of the evolution of life and our search for life elsewhere in the Cosmos. Much of the filming will be done from on board the Alvin deep ocean research vessel. The companion Educational Outreach Program will reach students in middle and secondary schools and at the college level. Print-based and web-based material also will be designed for use by families. The film and the outreach materials together will be the basis of a substantive educational effort to inform the public about the intricacies and significance of the fascinating, but largely unknown, ecosystem.
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TEAM MEMBERS:
Richard LutzAlexander LowStephen LowBarbara Flagg