Designed learning environments embody conjectures about learning and instruction, and the empirical study of learning environments allows such conjectures to be refined over time. The construct of embodied conjecture is introduced as a way to demonstrate the theoretical nature of learning environment design and to frame methodological issues in studying such conjectures. An example of embodied conjecture and its history of empirical refinement are presented to provide a concrete example of how the effort to design instructional change can lead to a productive shift in view of the underlying
This study investigated the effectiveness of a combined museum and classroom intervention project on science learning in low-income children. The focus of the program was on children's content knowledge and concept complexity. Thirty children were in the experimental group. A control group of 18 children visited literacy and social studies exhibits at the museum. Results indicate that children in the experimental group learned content knowledge about the components of bubbles and the definition of a current. Although children in the experimental group exhibited more complex concepts about
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TEAM MEMBERS:
Harriet TenenbaumGabrielle Rappolt-SchlichtmannVirginia Vogel Zanger
Deals with the success of the Rural Girls in Science Program at the University of Washington in Seattle, Washington State, which uses science to address local issues through long-term research projects. Source of funding for the program; Components of the research projects; Factors which contributed to the success of the program.
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TEAM MEMBERS:
Angela GinorioJanice FournierKatie Frevert
The concern with a "digital divide" has been transformed from one defined by technological access to technological prowess--employing technologies for more empowered and generative uses such as learning and innovation. Participation in technological fluency-building activities among high school students in a community heavily involved in the technology industry was investigated in a study of 98 high school seniors enrolled in AP-level calculus. Findings indicated substantial variability in history of fluency-building experiences despite similar levels of access. More and less experienced
The purpose of this paper is to explore and discuss the role of practical work in the teaching and learning of science at school level. It emphasizes practical work as a means for students to learn about the nature of science.
Reports from the NSF, NRC, AAAS, and others urge over and over that we must teach "science as science is done," that "science is a way of knowing," that our goal should be to impart "scientific habits of mind," and that learning must be learner-centered and oriented toward process. Fine. But what does this really mean for science education, and especially laboratory education?
The purpose of this paper is to examine the role of laboratory-based science from a perspective that synthesizes developments in (1) science studies, e.g., history, philosophy and sociology of science and (2) the learning sciences, e.g., cognitive science, philosophy of mind, educational psychology, social psychology, computer sciences, linguistics, and (3) educational research focusing on the design of learning environments that promote dynamic assessments. Taken together these three domains have reshaped our thinking about the role inquiry, and in turn the laboratory, has in science
This paper explores the role of laboratory and field-based research experiences in secondary science education by summarizing research documenting how such activities promote science learning. Classroom and field-based "lab work" is conceptualized as central components of broader scientific investigations of the natural world conducted by students. Considerations are given to nature of professional scientific practice, the personal relevance of student's understanding of the nature of empirical scientific research, and the role of technology to support learning. Drawing upon classroom learning
This case study reveals how one community-based youth development organization in the northeastern United States advocated for social and educational equity for the low-income families it served by challenging the local school district’s practice of referring low-income children of color to special education in disproportionate numbers. Because this community-based organization (CBO) is typical of many such youth-serving organizations, the case study shows how the assets CBOs bring to their communities can help them negotiate with schools to achieve greater social and educational equity for
The main objective of the CONNECT project is to develop an innovative pedagogical framework that attempts to blend formal and informal learning, proposing an educational reform to science teaching. The project will create a network of museums, science centres and schools across Europe, to develop, apply and evaluate learning schemes by pointing to a future hybrid classroom that builds on the strengths of formal and informal strategies. The proposed approach will impact upon the fields of instructional technology, educational systems design and museum education. It will explore the integration
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TEAM MEMBERS:
Sofoklis SotiriouEleni ChatzichristouStavros SavasNikolaos OuzounoglouLynn DierkingSalmi Hannu SakariAvi HoffsteinSherman Rosenfeld
The "Salmon Research Team: A Native American Technology, Research and Science Career Exposure Program" is a three-year, youth-based ITEST project submitted by the Oregon Museum of Science and Industry. The project seeks to provide advanced information technology and natural science career exposure and training to 180 middle level and high school students. Mostly first-generation college-bound students, the target audience represents the Native American community and those with Native American affiliations in reservation, rural and urban areas. Students will investigate computer modeling of complex ecological, hydrological and geological problems associated with salmon recovery efforts. Field experiences will be provided in three states: Oregon, Washington and northern California. The participation of elders and tribal researchers will serve as a bridge between advanced scientific technology and traditional ecological knowledge to explore sustainable land management strategies. Students will work closely with Native American and other scientists and resource managers throughout the Northwest who use advanced technologies in salmon recovery efforts. Student participation in IT-dependent science enrichment and research activities involving natural science fields of investigation will occur year round. Middle school students are expected to receive at least 330 contact hours including a one-week summer research experience, a one-week spring break program, and seven weekends of residential programs during the school year. The high school component consists of 460 contact hours reflecting one additional week for the summer research experience. In addition to watershed and salmon recovery related research, students will be involved in other ancillary research projects. A vast array of partners are positioned to support the field research experience including, for example, the U.S. Department of the Interior, Redwood National State Park, College of Natural Resources and Sciences at Humboldt State University, Confederated Tribes of the Warm Springs, University of Oregon Institute of Marine Biology, University of Washington Columbia Basin Research project, the Northwest Center for Sustainable Resources at Chemeketa Community College and the Integrated Natural Resource Technology program at Mt. Hood Community College. The project is intended to serve as a model for IT-based youth science programs that address national and state education standards and are relevant to the cultural experience of Native American students. Two mentors will provide continued support to students: an academic mentor at the student's schools and a professional mentor from a local university or natural resource agency. Incentives will be provided for student participation including stipends and internships. Career exposure and work-related skills are integrated throughout the project activities and every program component. Creative strategies are used to encourage family involvement including, for example, salmon bakes and museum discounts.
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TEAM MEMBERS:
Travis Southworth-NeumeyerDaniel Calvert
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.