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Eric.ed.gov – Can Formal-Informal Collaborations Improve Science Literacy in Urban Middle Schools? The Impact of Urban Advantage. IESP Policy Brief 03-11

eric.ed.gov har udgivet: This brief presents findings from a study on Urban Advantage (UA), a collaboration between the American Museum of Natural History (AMNH), other New York City informal science institutions, and the New York City Department of Education (NYCDOE) to improve the science literacy of NYC public school students. The analysis draws on a rich longitudinal database, containing student- and school-level data for all NYC public schools and students from 2004-05 to 2009-10. Results indicate that these collaborations can have a positive impact on student achievement and science learning. Key findings include: (1) Students at UA schools outperform students at non-UA schools. In 2006- 07, the third year of the program, 44.2% of students at UA schools are proficient on the Intermediate Level Science Test (ILS) exam, compared to… Continue Reading

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Eric.ed.gov – Inspiring the Next Generation of Innovators: Students, Parents and Educators Speak up about Science Education

eric.ed.gov har udgivet: This report presents the findings from Project Tomorrow’s 2007 Speak Up Survey, informing international discussions about how to improve science learning in the 21st century through an exploration of student, teacher, parent, and school leader attitudes about science education. Project Tomorrow administered its survey in all 50 United States, the District of Columbia, American Department of Defense Schools, Canada, Mexico, and Australia. The top participating states included: Texas, California, Arizona, Illinois, Alabama, Maryland, North Carolina, Pennsylvania, Florida, and Michigan. Project Tomorrow surveyed 319,223 K-12 students, 25,544 teachers, 19,726 parents, and 3,263 school leaders. Respondents were from 3,729 schools and 867 districts. Ninety-seven percent were from public schools; three percent were from private schools. School locations were 32 percent urban, 40 percent suburban, and 29 percent rural. Forty-three… Continue Reading

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Eric.ed.gov – A Case Study: Teaching Engineering Concepts in Science

eric.ed.gov har udgivet: This study was conducted to describe a high school engineering curriculum, identify teaching strategies used to increase math and science literacy, and discover challenges and constraints that occur during its development and delivery, as well as what strategies are used to overcome these obstacles. Semi-structured interviews were conducted with the engineering instructor. In addition, students were observed and curriculum documents, teacher lesson plans, and teacher resources were examined. Concepts created the platform for delivery, curricular trial and error was at work, science and engineering competitions were leveraged as a basis for learning activities, and project based learning and teaching was critical. There was a clear emphasis on creative thought and work. Assessment of student learning was dubious and elusive and stakeholders tended to be uneasy with this… Continue Reading

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Eric.ed.gov – Recapturing the Lead in Math and Science. Focus 14.

eric.ed.gov har udgivet: This document examines various topics and issues related to the quality of science and mathematics education in the United States. They include: (1) competition from Japan and the Soviet Union; (2) federal programs and legislation designed to improve the quality of science and mathematics education; (3) scientific literacy; (4) the basics in mathematics education, outlining those recommended in the National Council of Teachers of Mathematics report, “An Agenda for Action” and discussing the importance of problem-solving skills and real-world mathematical applications; (5) science and pseudoscience, examining the scientific method and the Creationist threat; (6) National Assessment of Educational Progress science and mathematics achievement data; (7) exemplary mathematics programs and the criteria for excellence in these programs (including the development of thinking skills); (8) exemplary science programs; (9)… Continue Reading

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Eric.ed.gov – A Case Study: Teaching Engineering Concepts in Science. Research in Engineering and Technology Education

eric.ed.gov har udgivet: This study was conducted to describe a teacher developed high school engineering course, to identify teaching strategies used in the process of delivering math and science literacy through this course, to identify challenges and constraints that occurred during its development and delivery, and to describe the strategies that were used to overcome those obstacles. A case study was conducted using semi-structured interviews with the engineering instructor at Benilde-St. Margaret’s in St. Louis Park, Minnesota. In addition, the researcher conducted classroom observations and reviewed instructional materials, teacher lesson plans, and teacher journals. Themes that developed regarding the strategies used to deliver this particular course identified that concepts created its platform for delivery, curricular trial and error was at work, science and engineering competitions were leveraged as a basis… Continue Reading

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Eric.ed.gov – Increasing Science Literacy in Early Childhood: The Connection between Home and School

eric.ed.gov har udgivet: Turning everyday activities such as baking into scientific activities is more than just fun: it is important for our children’s futures. Science investigations provide an opportunity for children to learn about scientific concepts and listen to their peers, family, and community members, and to respond to their questions or ideas. It also provides them with an opportunity to ask and answer their own questions, build persistence, and improve their problem-solving and self-regulation skills, which are essential for academic success. As the world becomes increasingly science- and technology-oriented, all children need to become proficient in science, whatever their chosen field. STEM (science, technology, engineering, and math) education has become a national priority, and even early childhood teachers are expected to increase the quantity and quality of the science… Continue Reading

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Eric.ed.gov – Technology Engineering in Science Education: Where Instructional Challenges Interface Nonconforming Productivity to Increase Retention, Enhance Transfer, and Maximize Student Learning

eric.ed.gov har udgivet: Technology Engineering is an innovative component of a much larger arena of teaching that effectively uses interactive technology as a method of enhancing learning and the learning environment. Using this method to teach science and math content empowers the teacher and enhances the curriculum as the classroom becomes more efficient and effective. Although the most modern technology–enhanced content is available for classroom deployment, this study suggests that various challenges arise that can delay a fully productive and successful integration of technology in the science classroom. In this study, seven urban school science teachers, incorporated technology-enhanced inquiry-based modules into their lesson plans to determine the overall effectiveness of technology integration in their classrooms. This paper examines how Technology Engineering helps students to understand scientific phenomena, despite hindrances within… Continue Reading

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Eric.ed.gov – Using a Disciplinary Literacy Framework to Teach High School Physics: An Action Research Study

eric.ed.gov har udgivet: This action research study investigated the impact of teaching physics using a disciplinary literacy framework for instruction across all units in one academic year. Through a suite of vocabulary strategies and lessons that encourage students to write, speak, draw, mathematically translate, and design experiments, students learn to do physics by approximating problems and tasks like physicists. The data from this study suggests that students who exhibit these physicist-like disciplinary literacy behaviors may perform better on math-based assessments so long as they employ disciplinary literacy strategies while problem solving. By teaching via a disciplinary literacy framework, the classroom may become more student-driven where disciplinary literacy behaviors are observable which may result in higher scores on teacher evaluation instruments that favor student-driven instruction. While students that exhibit disciplinary literacy… Continue Reading

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Eric.ed.gov – Planning Science Instruction for Critical Thinking: Two Urban Elementary Teachers’ Responses to a State Science Assessment

eric.ed.gov har udgivet: Science education reform standards have shifted focus from exploration and experimentation to evidence-based explanation and argumentation to prepare students with knowledge for a changing workforce and critical thinking skills to evaluate issues requiring increasing scientific literacy. However, in urban schools serving poor, diverse populations, where the priority is on students’ assessment results in reading and math, students may not receive reform-based science. The rationale for this qualitative study was to examine how two elementary teachers from high-poverty urban schools planned for reform-based science in response to a quality state science assessment in conjunction with their training and resources. Their state assessment included an inquiry task requiring students to construct responses to questions based on their investigation data. From evaluating evidence using Zembal-Saul’s continuum for teaching science as… Continue Reading

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Eric.ed.gov – Middle School Science and Mathematics Teachers’ Conceptions of the Nature of Science: A One-Year Study on the Effects of Explicit and Reflective Online Instruction

eric.ed.gov har udgivet: Science, Technology, Engineering, and Mathematics (STEM) education has become one of the main priorities in the United States. Science education communities and researchers advocate for integration of STEM disciplines throughout the teaching curriculum. This requires teacher knowledge in STEM disciplines, as well as competence in scientific literacy. Since nature of science (NOS) is a critical component of scientific literacy, this study examined teachers’ conceptions NOS over a one-year period. Participants included 21 middle school science and mathematics teachers who integrated science and mathematics in their classrooms. We employed two NOS instruments to collect data on participants’ NOS conceptions “before” and “after” a one-year online graduate program. This study examined changes in NOS understanding for the group as a whole, between science and mathematics teachers, and whether beginning… Continue Reading