This report from the National Research Council explores how learning changes the physical structure of the brain, how existing knowledge affects what people notice and how they learn, the amazing learning potential of infants, and the relationship between classroom learning and learning in everyday settings such as community and the workplace. It identifies learning needs and opportunities for teachers and provides a realistic look at the role of technology in education.
American educators and policymakers have often claimed that the arts can have powerful effects in education and that these effects may reverberate far beyond the arts. Arts education has been argued to have social, motivational, and academic repercussions. But are such claims rooted in empirical evidence, or are they unsupported advocacy? The studies in this issue review systematically what is known about the power of the arts to promote learning in non-arts domains. Thus, we focus here only on the claims that have been made about the effects of arts education on cognitive, academic outcomes
In the American educational climate of today, "basic" academic skills are valued while the arts are considered a frill. Many major urban school districts have cut back on arts education in order to strengthen academic subjects. Even though most of our schools have some arts education, and even though most of our citizens say they want their children to be exposed to the arts in school, only one in four students in American schools sings, plays an instrument, or performs plays in class each week. When budgets are tight, the arts are almost always the first programs to be cut. This study
The authors examine SAT data from the College Board in order to examine the correlation between the number of years of art education and SAT scores. By studying twelve years of data, they find that studying art is associated with higher SAT scores, and that students who take four years of art courses have higher scores than those who take some art but less than four years' worth.
This materials development project is the result of a joint effort by Miami University and the National Science Teachers Association (NSTA). The project will combine the resources of the Univeristy and the publication department of NSTA, to work with schools to produce an innovative science journal for children in grades 3-6, a teacher support manual, a parent support manual, and a supporting computer network that will connect children with scientists and university science students in scientific inquiry. The journal will be the first national journal devoted to research scientists and children with an outlet for publication of scientific investigations conducted by children. Given the strong record of accomplishment of the PI and the publications division of the National Science Teachers Association, the panel feel it is likely that the Dragonfly, Dragonfly Companions. the Dragonfly Net will be a quality product and recommends funding this project at a high priority level. The Program Officer agrees with the panel and recommends funding this proposal.
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TEAM MEMBERS:
Christopher MyersPhyllis MarcuccioR. Hays CumminsChris WolfeCarolyn Haynes
During the 3 years of this project, 72 high school and middle school teachers and 36 students will work as members of atmospheric research teams studying each of ten airshed around the Portland, OR metropolitan area. Each summer's activities include a 4-week atmospheric interaction research course and a one-week air quality measurement campaign during a pollution episode. Transfer to the classroom is anticipated through action research projects during the academic year. An interactive webpage will enable all partners to access data, real time models of the atmosphere, and descriptions of the action research projects. A lead high school will serve as the Horizons-Air site for an airshed zone and will work collaboratively with four other middle/high schools, the Horizons-Met sites.
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TEAM MEMBERS:
Linda GeorgeDaniel JohnsonWilliam Becker
This Phase I SEPA proposal supports a consortium of science and education partners that will develop System Dynamics (SD) computer models to illustrate basic health science concepts. The consortium includes Oregon Health Sciences University (OHSU), Portland Public Schools (PPS), Saturday Academy, and the Portland VA Medical Center. SD is a computer modeling technique in which diagrams illustrate system structure and simulations illustrate system behavior. Desktop computers and commercial software packages allow SD to be applied with considerable success in K-12 education. NSF grants to Portland Public Schools have trained over 225 high school teachers in Portland and surrounding areas. Two magnet programs have been established with an emphasis on systems and at least five other schools offer significant systems curriculum. Major components of this project include (1) Annual summer research internships at OHSU for high school teachers and high school students, (2) Development of SD models relevant to each research project, (3) Ongoing interactions between high school science programs and OHSU research laboratories, (4) Development of curriculum materials to augment the use of the SD model in the high school classroom or laboratory setting, and (5) Development of video materials to support the classroom teacher. Content will focus on four fundamental models: linear input/exponential output, bi-molecular binding (association/dissociation), population dynamics, and homeostasis. Each of these models is very rich and may be extended to a broad variety of research problems. In addition these models may be combined, for example to illustrate the effect of drugs (binding model) on blood pressure (homeostasis model). System Dynamics is an exemplary tool for the development of materials consistent with National Science Education Standards. SD was specifically developed to emphasize interactions among system structure, organization, and behavior. Students use these material as part of inquiry-based science programs in which the teacher serves as a guide and facilitator rather than the primary source of all content information; technical writing by students is also encouraged. Finally, these SD materials will provide a coherent body of work to guide the ongoing professional development of the classroom science teacher.
KY-H.E.R.O.S. (Health Education Rural Outreach Scientists) is a health science education program that partners the largest science center in Kentucky with Science Heroes-- important regional biomedical research scientists. The Science Heroes, their stories and their studies serve as inspiration to our rural audience. The project objectives are to: (1) Convey the relevance of health science research to people's daily lives and promote awareness of healthy lifestyle choices and wellness; (2) Promote understanding of the fundamental principles of the scientifc process and inspire K-12 teachers to incorporate current research into their teaching of health science; and (3) Encourage students to pursue advanced science education and increase awareness of the wide range of health science related careers. The Science Center, working with the distinguished Science Heroes, their research teams and a group of 15 knowledgeable professional advisors will develop the new KY-H.E.R.O.S. science education program. The program will include new hands-on labs and demonstrations, teacher training workshops, career exploration activities, interactive videoconferencing distance learning links, and innovative public programs. Using museum-based exhibits and a wet lab, traveling exhibit components, telelinking (distance learning), an interactive website and printed and electronic materials, we will present information about the work of the Science Heroes and its relevance to the lives of participants. The focus of the program will change every two years to feature three different scientists and their work. A total of nine scientists will be included during the 5 year period covered by the SEPA grant. As the focus changes every two years to a different three scientists, all the programs and exhibits will be changed accordingly. KY-H.E.R.O.S. will be designed to serve audiences composed of school groups on field trips; teachers in workshops; classes in remote areas of the state participatng through videoconferencing; underserved groups including economically disadvantaged, minorities and young women; and the family audience that makes up about 60% of the Science Center's annual attendance. Formative and summative evaluation will be conducted by an outside firm to ensure effectiveness.
The Internet, specifically the World Wide Web (WWW), has the potential to deliver science education materials directly to classrooms, media centers, libraries and homes. The current application seeks to use this new technology through a collaborative effort of an active scientist and a group of middle school science teachers to develop, disseminate and evaluate educational materials related to neuroscience for use in middle school science classes. This project attempts to introduce new technologies into the science classroom, extend science education to include the information superhighway and increase parental involvement in their children's education. Materials will be integrated with the existing middle school science curriculum and will include l) on-line and off-line experiments and activities covering a range of topics in neuroscience, 2) a "virtal neuroscience laboratory", 3) an Internet neuroscience resource list and 4) a "Neuroscientist Network" consisting of active neuroscientists around the world who will serve as experts answering student questions. All activities will be designed will attention to being self-paced, hands-on, entertaining and to involve Cooperative learning. Both quantitative and qualitative methods will be used to evaluate the usage of the Intemet Neuroscience Resource. It is hoped that this project will serve as a model to other scientists and teachers and to encourage them to develop Internet resources in their own areas of expertise for use in the classroom.
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TEAM MEMBERS:
Eric Chudler
resourceprojectProfessional Development, Conferences, and Networks
Working in collaboration with biomedical researchers from universities in the San Francisco area, across the nation, and abroad, the Exploratorium proposes to develop a high-quality microscopic imaging station for use by museum visitors, students, teachers and Internet visitors. This facility will utilize the highest quality optics and state-of-the-art microscopic techniques including biological staining and sophisticated digital recording. A variety of living specimens fundamental to basic biology, human development, the human genome and health-related research will be displayed. The station will be the lively center of the life sciences' area at the Exploratorium, providing educational content, dramatic imagery and regular demonstrations to reach an audience which ranges from the mildly curious to research scientists. In addition, the Exploratorium will be the first public institution, outside of a few research laboratories, to present live microscopic specimens via video and the Internet in real time. (To date, remote microscopes have generally presented inanimate objects or fixed tissue.) In order to increase student accessibility, subject matter for the imaging station will be integrated into the ongoing middle and high school teacher professional development at the museum. Teachers will be able to use the imaging station to conduct their own experiments, develop classroom explorations, take away images, access the website in their classrooms, or share materials with other teachers.
The long-term goal is to broaden our model program that currently targets African-American populations in the national capital area. The aim of the program is to: a) educate junior and senior high students and elementary school teachers directly; and b) provide opportunities for exploration of health-related sciences for the public at large (via an interactive website) so that topics in the biomedical sciences become "friendly and familiar" rather than the existing stereotype that science is erudite, obtuse, and incomprehensible. Specific objectives: (A) Design hands-on experiences in science laboratories and opportunities to interact with scientists in the setting of a sophisticated research institute; especially target under-represented minorities, students from inner city schools and other local schools where science opportunities may be limited. This will include junior and high school students, elementary school teachers, as well as interactions with Children's Museum and other similar organizations. (B) Set up interactive web-based informatics to include: i) a system where high school students could refine the question they are posing for science projects by discussing it with a professional scientist; ii) a general "ask-the-expert" site for science and health issues; iii) a reference site containing the detailed experimental protocols for student experiments; and iv) an interactive resource to aid teachers throughout the U.S. to establish contacts with scientists. The goal of this project is to extend the reach of current health science programs that are targeted to females, African-American junior and senior high school students, and elementary school teachers, located in the Washington, D.C., metropolitan area. The project includes laboratory apprenticeships, student mentoring, and an interactive website to help students and teachers establish contact with scientists nationwide.