How People Learn: Bridging Research and Practice provides a broad overview of research on learners and learning and on teachers and teaching. It expands on the 1999 National Research Council publication How People Learn: Brain, Mind, Experience, and School, Expanded Edition that analyzed the science of learning in infants, educators, experts, and more. In How People Learn: Bridging Research and Practice, the Committee on Learning Research and Educational Practice asks how the insights from research can be incorporated into classroom practice and suggests a research and development agenda that
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TEAM MEMBERS:
M. Suzanne DonovanJohn BransfordJames Pellegrino
Informal environments—or out-of-school-time (OST) settings—play an important role in promoting science learning for preK–12 students and beyond. The learning experiences delivered by parents, friends, and educators in informal environments can spark student interest in science and provide opportunities to broaden and deepen students’ engagement; reinforce scientific concepts and practices introduced during the school day; and promote an appreciation for and interest in the pursuit of science in school and in daily life. NSTA recommends strengthening informal learning opportunities for all preK
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National Science Teachers Association
Current empirical research in science and technology studies provides new and different views of science and scientists that contrast markedly with the mythical views that underlie many curricular efforts geared toward increasing scientific literacy. If descriptions of science and scientists that emerge from science and technology studies are legitimate, considerable implications arise for educational aims guiding science instruction, learning experiences directed toward those educational aims, and resources that support those learning experiences and educational aims. In this paper, we (a)
This chapter draws attention to the self-regulatory skills that students use in informal learning settings. Formal and informal learning settings are defined as complementary learning environments and it is pointed out that students differ with respect to the learning environments they find conducive to learning. It is suggested that the goals students set for themselves when learning in an informal learning context are different from the goals they set for themselves in a formal learning context. Furthermore, it is speculated that students attend to different clues and select different self
Positive affect systematically influences performance on many cognitive tasks. A new neuropsychological theory is proposed that accounts for many of these effects by assuming that positive affect is associated with increased brain dopamine levels. The theory predicts or accounts for influence of positive affect on olfaction, the consolidation of long-term (ie. episodic) memories, working memory, and creative problem solving. For example, the theory assumes that creative problem solving is improved, in part, because increased dopamine release in the anterior cingulate improves cognitive
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TEAM MEMBERS:
F. Gregory AshbyAlice IsenAnd U. Turken
Research suggests that parents are effective at scaffolding their children's learning to help them become self-regulated problem solvers. Yet little is known about parents' effectiveness at assisting their children with problems that parents find unfamiliar and, thus, do not have at hand either the solution or strategies that a novice child could profitably implement. In this study, 20 dyads of parents and their preadolescent children spent 45 min solving a scientific reasoning problem that entailed generating and interpreting a series of experimental trials to understand the causal structure
Children often learn new problem-solving strategies by observing examples of other people's problem-solving. When children learn a new strategy through observation and also explain the new strategy to themselves, they generalize the strategy more widely than children who learn a new strategy but do not explain. We tested three hypothesized mechanisms through which explanations might facilitate strategy generalization: more accurate recall of the new strategy's procedures; increased selection of the new strategy over competing strategies; or more effective management of the new strategy's goal
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.
The New York City Board of Education Community School District #18 requests $862,790 to design a Parent Involvement in Science, Mathematics, and Technology Program. The program is designed to stimulate parents to become informed, active proponents for high quality and more universally available science, mathematics, and technology education for their children. The SMART Parents project team would design and disseminate strategies to enable parents to support their children's science, mathematics, and technology education. Innovative materials and strategies will be developed that will actively engage over 6,000 parents/families over the thirty-eight (38) months duration of the project. Almost 20,000 families will become involved in the leadership-training component of this project. The initiative will assist parents in supporting their children's education in science, mathematics, and technology education. Ultimately, the project will enhance parents' knowledge and understanding of Informal Science Education.
This project, Project PARTNERS (Parents: Allies Reinforcing Technology and Neighborhood Educators Reinforcing Science) supports parents and their children in learning the mathematics and science taught in the schools. The Bronx Educational Alliance (BEA), in collaboration with Lehman College, School District Nine, the Bronx High School Superintendency, and the Bronx Federation of High School Parent Association Presidents, provides a four-month Parent Academy twice a year. Thirty-six parents (20 elementary, 6 middle and 10 high school), from 18 Bronx schools in three K-12 corridors with which the BEA Resource/Outreach Center for Parents currently works, participate in each Academy, reaching 360 over five years. Project PARTNERS goals are to: 1) increase student achievement in 18 Corridor Schools through meaningful parental support; 2) provide parent training in Math, Science and Technology and enable parents to understand the New Standards; 3) develop skills to reinforce their children's learning at home; and 4) model how to effectively learn in science-rich informal educational institutions. Parents meet on Saturdays twice a month for six hours. On one Saturday they team with a teacher and child to visit a science rich institution. On the other Saturday they learn to use computer software programs which support MST, and math concepts through games and manipulatives. Incentives for parents include learning computer skills and stipends of $300 upon completion. The BEA Academies coordinate with the BUSI and District's Family Math and Family Science workshops.
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TEAM MEMBERS:
Herminio MartinezMarietta Saravia-Shore
Through a collaboration of the DuPage Children's Museum, Argonne National Laboratory, and National-Louis University, a three-element project is being conducted focusing on the following: 1) a research component that studies children's naive perceptions of the phenomena of air and wind energy, 2) an exhibition component that uses the project research to design, develop, and construct a 3- 4,000 square foot "process" oriented exhibition with a 2-story exhibit tower and 12-15 replicable exploratory workstations, 3) a program component that offers explorations for children adapted for museums, preschools and elementary school classrooms. Target audiences include young children and their parents, pre- and in- service early childhood teachers, and museum professionals interested in reaching very young children.