eric.ed.gov har udgivet: The 6th Annual Conference of the National Academy for the Integration of Research, Teaching and Learning (NAIRTL) and the 4th Biennial Threshold Concepts Conference was held at Trinity College Dublin, Ireland, on June 27-29, 2012. The NAIRTL is a collaborative initiative between University College Cork, Cork Institute of Technology, National University of Ireland Galway, Trinity College Dublin, and Waterford Institute of Technology. It is supported by the Higher Education Authority under the Strategic Innovation Fund. The proceedings from the 2012 NAIRTL conference bring together “key insights” on the topic of Threshold Concepts. This publication includes a selection of papers from the conference. The papers provide insights into how to apply the Threshold Concepts idea to gain a deeper understanding of how students learn, and also how to… Continue Reading →
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eric.ed.gov har udgivet: Numerous studies document high drop-out and failure rates for students in computer programming classes. Studies show that even when some students pass programming classes, they still do not know how to program. Many factors have been considered to explain this problem including gender, age, prior programming experience, major, math background, personal attributes, and the programming language itself. Research in this area has mainly been confined to introductory programming courses. This study explores the problem at a higher level. It tracks students longitudinally as they move from the first introductory programming class, to the second introductory class, and finally, to completion of an advanced programming course. The research question answered was: What are the factors contributing to the success or lack of success in advanced programming? The success… Continue Reading →
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eric.ed.gov har udgivet: Twenty-one magnet programs in the Houston Independent School District in Texas feature an enriched curriculum in science, math, and/or computers (science/math). Of these, 12 are elementary programs, 4 are middle school programs, and 5 are high school programs. In these programs, a total of 9,574 students were served during the 1990-91 school year: 6,372 elementary, 3,358 middle, and 1,834 high school students. Fifth grade students enrolled in the seven elementary Science/Math Add-On Programs did not score significantly higher than the comparison groups on the MAT6 science tests, and in only one program did students score significantly higher than their matched comparison group on the MAT6 math tests for the 1988-89 or 1990-91 school years. Fifth grade students enrolled in five elementary School-Within-A-School Programs (SWAS) scored significantly higher… Continue Reading →
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eric.ed.gov har udgivet: This article describes a school librarian’s experience with initiating an Hour of Code event for her school’s student body. Hadi Partovi of Code.org conceived the Hour of Code “to get ten million students to try one hour of computer science” (Partovi, 2013a), which is implemented during Computer Science Education Week with a goal of bringing awareness of the value of including computer science in school curricula, and increasing future job opportunities for students worldwide. The author organized the Hour of Code event for her school with the expectation that the event would increase awareness among administrators, teachers, students, and parents of the value of a computer science education and create a demand for more computer science education in her school district. Students should be exposed to computer… Continue Reading →
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eric.ed.gov har udgivet: The United States Naval Academy (USNA) STEM Center for Education and Outreach addresses an urgent Navy and national need for more young people to pursue careers in STEM fields through world-wide outreach to 17,000 students and 900 teachers per year. To achieve this mission, the STEM Center has developed a hands-on and inquiry-based methodology to be used with K-12 educators at professional development workshops and with students through camps, festivals and fairs, and STEM days. According to recent data, math and computer science (CS) are the fastest growing fields among STEM careers (US Bureau of Labor Statistics, 2016). The Computer Science for All initiative (U.S. Office of the Press Secretary, 2016) urges communities to bring more computer science education into the classroom to meet the rapidly rising… Continue Reading →
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eric.ed.gov har udgivet: The Sharing Success program, recognizes exemplary public school programs and practices in the states of Alabama, Florida, Georgia, Mississippi, North Carolina, and South Carolina. Each year, SERVE emphasizes a specific program area for recognition based on one of the national goals for education. This “Sharing Success” publication documents several dozen of the region’s most effective programs in the areas of mathematics, science, and technology (computer-assisted instruction). Programs are ranked for quality and innovation and are presented in three sections: (1) Programs of Excellence, highest rated programs (21) in the areas of Mathematics, Science, Math/Science, and Technology (e.g., science–tropical rain forest, summer science fun lab; math–elementary math lead teachers, problem-solving approach to algebra; math/science–Hayes Cooper Center [magnet school]; technology–writing to write); (2) Quality Programs (46) meeting a high… Continue Reading →
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eric.ed.gov har udgivet: In this article the authors compare two phases of an ongoing, annual online peer observation project at the Open University. Adopting a non-managerialist approach, the project aims to give teachers a renewed sense of collegiality, allowing them to take responsibility for aspects of their professional development and share practice points. While the first phase focused on a single discipline group in languages, the second brought together teachers in languages with teachers of Math, Computing, and Technology, all employing Elluminate Live as their online teaching platform. The authors comment on congruent and divergent gains emerging from the two phases. Link til kilde
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eric.ed.gov har udgivet: Business leaders in Minnesota cannot find the science, technology, engineering and mathematics (STEM) talent they need to stay competitive. Students’ lagging performance in K-12 is a critical reason why. The good news is that the nation’s most effective STEM education programs can help turn the tide. Minnesota students have made some gains in math since 2003, yet this success masks large racial and ethnic gaps in student achievement and access to opportunity. Not enough students–least of all minorities–have the chance to learn rich and challenging content that prepares them for college and careers. Black and Hispanic students also receive a disproportionately small share of STEM degrees and certificates awarded in the state. Link til kilde
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eric.ed.gov har udgivet: Business leaders in Delaware cannot find the science, technology, engineering and mathematics (STEM) talent they need to stay competitive. Students’ lagging performance in K-12 is a critical reason why. The good news is that the nation’s most effective STEM education programs can help turn the tide. Delaware students have already made real progress in math over the past decade the state also shows strengths in science. Elementary students spend more time on science than their peers in other states do, and eighth graders are more likely to conduct hands-on investigations. Yet not enough students-least of all minorities-get the chance to learn rich and challenging content that prepares them for college and careers. Link til kilde
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eric.ed.gov har udgivet: Business leaders in Arkansas cannot find the science, technology, engineering and mathematics (STEM) talent they need to stay competitive. Students’ lagging performance in K-12 is a critical reason why. The good news is that the nation’s most effective STEM education programs can help turn the tide. Students in Arkansas have made real progress in math over the past decade. Yet not enough students, least of all minorities, are getting exposed to challenging content to prepare them for college and careers. The stakes in the state are very high. While the number of college degrees and certificates in the state rose almost dramatically in the last decade, it actually fell in STEM, particularly among women. Link til kilde
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