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Showing 1 to 15 of 147 results Save | Export
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Sung, Euisuk – Technology and Engineering Teacher, 2019
Computational thinking has been popularized in the last decade, particularly with the emphasis on coding education in K-12 schools. The core idea of computational thinking has a close relationship with technology and engineering education (TEE). TEE has emphasized the use of computing skills to solve problems, and integrative STEM education…
Descriptors: Skill Development, Computation, STEM Education, Engineering
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Custer, Rodney L.; Moye, Johnny J. – Technology and Engineering Teacher, 2019
Many industrial arts, technology education, and now technology and engineering education leaders have made their mark on our profession. Their legacy is something that members of the profession enjoy and have a responsibility to continue and build upon. This is the thirteenth in a series of articles entitled "The Legacy Project." The…
Descriptors: Industrial Arts, Vocational Education, Technology Education, Technical Education
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de Vries, Marc J. – Technology and Engineering Teacher, 2019
This article begins with clarification of any confusion one might have as to what is meant by Science, Technology, Engineering, and Math (STEM) education. The author writes that the acronym STEM was originally used in a political context to call attention to the demands of the future workforce in Science, Technology, Engineering, and…
Descriptors: Foreign Countries, STEM Education, Technology Education, Integrated Curriculum
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Bartholomew, Scott R.; DeSplinter, Marlee – Technology and Engineering Teacher, 2019
Science, Technology, Engineering, and Mathematics (STEM) education, integrated STEM education, and integrative STEM education are all actively pursued teaching approaches currently being highlighted in the United States and abroad (Sanders, 2009; Semali & Mehta, 2012), and in recent years the increase in interest, engagement, and pressure to…
Descriptors: Foreign Countries, Integrated Activities, STEM Education, Integrated Curriculum
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Weidman, Justin; Wright, Geoffrey – Technology and Engineering Teacher, 2019
Construction Education has been dwindling in K-12 classrooms for the past 20 years (Frazier, 2015; Chini, 1999; Jones, 1990). This has led to enrollment issues and professional shortages in the construction industry (Bigelow, 2015). Couple these facts with the call for STEM majors (Painter, 2012), and there is a noteworthy opportunity: combine…
Descriptors: Construction (Process), Technology Education, Elementary Secondary Education, Experiential Learning
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Moye, Johnny J. – Technology and Engineering Teacher, 2019
Today's world is shaped by technology and products engineered to serve society's needs and wants. The knowledge and skills required to develop and use these products are changing at an exponential rate (NASE&M, 2017; NRC, 2011). In order to understand and meet future challenges, it is vital that the United States produce technology- and…
Descriptors: Technology Education, Engineering Education, STEM Education, Problem Solving
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Tan, Verily; Nicholas, Celeste; Scribner, J. Adam; Francis, Dionne Cross – Technology and Engineering Teacher, 2019
With the introduction of "Next Generation Science Standards" ("NGSS"), teachers have been called to find meaningful and engaging ways to teach science content while incorporating engineering practices and, to a lesser extent, computing and computational thinking. The task becomes even more complex when they also have to…
Descriptors: Interdisciplinary Approach, Teaching Methods, Standards, Science Instruction
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Love, Tyler S. – Technology and Engineering Teacher, 2019
Technology and Engineering (T&E) education has traditionally included safety as a core component of its curriculum and instruction. Recommendations for safety instruction can be found in manual arts and industrial arts documents (Christy, 1938). Safety was emphasized across all grade levels, including the elementary grades (Miller & Boyd,…
Descriptors: STEM Education, Laboratory Safety, Safety Equipment, Technology Education
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Flowers, Jim – Technology and Engineering Teacher, 2019
As a resource for manufacturing and construction, wood has much to offer: it is renewable, beautiful, locally obtainable, and rather easy to machine. In addition to building products out of wood, wood can be scientifically studied in the classroom and lab. In the age of STEM integration, technology and engineering teachers can teach wood science,…
Descriptors: Woodworking, Forestry, STEM Education, Technology Education
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Fisher, Karin – Technology and Engineering Teacher, 2019
According to the new federal spending bill signed into law in March 2018, funding is being provided for education programs and initiatives in the Every Student Succeeds Act (ESSA). Many provisions allow for funding to support science, technology, engineering, and mathematics (STEM) education that includes diverse learners in activities such as…
Descriptors: Robotics, STEM Education, Elementary Secondary Education, Educational Legislation
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Swagerty, Lindsey M.; Hodge, Tara – Technology and Engineering Teacher, 2019
Recent education initiatives have created a spotlight for science, technology, engineering and mathematics (STEM) programs within schools with an eye to not only improve students' overall performance in mathematics and science, but also increase the pipeline of students pursuing STEM-focused careers. While current STEM initiatives focus on all…
Descriptors: Creativity, Inquiry, STEM Education, Elementary School Students
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Euefueno, William D. – Technology and Engineering Teacher, 2019
Project-/Problem-Based Learning (PBL) creates dynamic learning environments, incorporates various stimuli, allows learners to gain valuable experiences that extend to real-world applicability, and should be considered as a primary delivery method in STEM classes. The application and benefits of PBL in STEM classes are limitless. Students learn…
Descriptors: Instructional Effectiveness, STEM Education, Active Learning, Student Projects
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Lipowitz, Daniel; Berkeihiser, Michael – Technology and Engineering Teacher, 2019
This article describes a class room activity introduced at Unionville High School in Kennett Square, PA. Humanities teacher Daniel Lipowitz partnered with engineering teacher Michael Berkeihiser and other STEM teachers to put the humanities (H) in "SHTEM." Sophomore English students were asked to re-engineer the conflict in common works…
Descriptors: STEM Education, Humanities, English Instruction, Interdisciplinary Approach
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Hutton, Carrie – Technology and Engineering Teacher, 2019
It is no secret that particular populations of Americans, specifically minorities, women, and students from high-poverty schools and districts, are underrepresented in Science, Technology, Engineering, and Mathematics (STEM) jobs (Presidents' Council of Advisors on Science and Technology, 2010). In the 21st century, technology drives innovation…
Descriptors: Role Models, Student Diversity, STEM Education, Disproportionate Representation
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Wu-Rorrer, Ray – Technology and Engineering Teacher, 2019
Creating strong community collaborations is a cornerstone in the success of career and technical education programs. Developing Science, Technology, Engineering, Arts, and Math (STEAM) programs for middle school students using community collaborations can be challenging. This article presents innovative strategies being successfully implemented in…
Descriptors: Art Education, STEM Education, Middle School Students, Females
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