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Showing 1 to 15 of 159 results Save | Export
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Townsend, Scott; Lamar, Scott; Walach, Michael; Hodge, Connie – Technology and Engineering Teacher, 2020
As science, technology, engineering and mathematics (STEM) educators in a teacher education program, it was discovered that students have commonly limited preconceptions about technology. Based on classroom experiences, when students are challenged to make a quick list regarding their ideas and examples of technology, they usually focus on…
Descriptors: Technology Education, History Instruction, STEM Education, Preservice Teacher Education
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Tomlinson, Joel; Johnson, Etahe; Chesser, Cole; Moore, Jonathan – Technology and Engineering Teacher, 2020
The automated water filtration design challenge integrates computer programming and basic electronics concepts through the SIMILAR systems engineering design process. The SIMILAR systems design process is to state the problem, investigate alternatives, model the system, integrate the system, launch the system, assess performance, and reevaluate…
Descriptors: Automation, Water, Water Quality, Design
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Hughes, Andrew J.; Merrill, Chris – Technology and Engineering Teacher, 2020
The focus of this article is to serve as an introduction to engineering principles in beam design using a lab activity. The concepts and skills learned in this article will lead students into concrete beam and form design and fabrication as well as the ability to precisely predict the amount of weight a concrete beam will hold during testing. An…
Descriptors: Engineering Education, Construction (Process), Manufacturing, Design
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Hughes, Andrew J.; Merrill, Chris – Technology and Engineering Teacher, 2020
Design is often accepted as a fundamental aspect of engineering (Dym, et al., 2005). The design process is frequently portrayed as a set of steps. However, the design process is more complex than just a set of steps in a relatively fixed process. The complex nature of design, design thinking, questioning, and decision making is exactly what…
Descriptors: Engineering Education, STEM Education, Design, Manufacturing
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Love, Tyler S.; Roy, Ken R.; Marino, Matthew T. – Technology and Engineering Teacher, 2020
A strength of technology and engineering (T&E) education programs is that they provide a unique context for students with varying abilities to apply their knowledge and skills in nontraditional ways. These courses help prepare students with valuable skills needed for college and career readiness. Makerspaces, fab labs, and STEM labs often…
Descriptors: STEM Education, Laboratories, Teaching Methods, Laboratory Experiments
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Hoepfl, Marie – Technology and Engineering Teacher, 2020
Marie Hoepl is a Professor and Associate Dean of Appalachian State University in Boone, North Carolina. She responds to questions about her past experience as an industrial arts teacher to what recommendations she has to create a more inclusive classroom and working with underrepresented populations. She concludes how she wants to do more…
Descriptors: STEM Education, Deans, Administrator Attitudes, Industrial Arts
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Loveland, Thomas; Love, Tyler S.; Wilkerson, Trena; Simmons, Patricia – Technology and Engineering Teacher, 2020
In 1981, twenty-one industrial arts educators convened at Jackson's Mill, WV to develop an agreed-upon rationale and direction for the future of industrial arts. However, the route to achieve this goal was not as clear, as they had to "live the challenge of inquiry, assimilation, compromise, and consensus" (Snyder & Hales, 1981, p.…
Descriptors: Industrial Arts, Curriculum, Standards, Educational History
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Garlick, Jared; Wilson-Lopez, Amy – Technology and Engineering Teacher, 2020
In light of linguistic diversity within many U.S. classrooms, it has become paramount that technology and engineering teachers provide accessible yet rigorous instruction that supports students' language development. One of the best ways to support emergent bilingual students is to provide rich and robust vocabulary instruction in English, while…
Descriptors: Educational Technology, Technology Uses in Education, Bilingual Students, English Language Learners
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Cox-Boniol, Cathi; Vincent, Lindsey – Technology and Engineering Teacher, 2020
The International Technology and Engineering Educators Association (ITEEA's) Science Technology Engineering and Math (STEM) Center for Teaching and Learning's Engineering by Design™ (EbD™) is a standards based Integrative STEM Education model program that provides curriculum, professional development, and assessments to K-12 schools. This article…
Descriptors: STEM Education, Consortia, Elementary Secondary Education, 21st Century Skills
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Bartholomew, Scott; Goodridge, Wade; Shaheen, Natalie – Technology and Engineering Teacher, 2020
In 2002 the World Health Organization (WHO) analyzed available data on Blindness and Low Vision (BLV) from 55 countries and applied it to the 17 WHO epidemiological subregions. Results indicate approximately 37 million people are blind and 124 million have low vision (Foster & Resnikoff, 2005). Providing opportunities for these students to…
Descriptors: Blindness, Visual Impairments, Students with Disabilities, STEM Education
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Tyler S. Love; Ken R. Roy – Technology and Engineering Teacher, 2020
The excitement of summer break arriving may have best been described by country music artist Kenny Chesney in his hit song Summertime, "…just like a long-lost friend you ain't seen in a while, you can't help but smile" (Wiseman & McEwan, 2006). For educators and students alike, this is a much-needed vacation to help reinvigorate…
Descriptors: Summer Programs, STEM Education, Laboratory Safety, Shared Resources and Services
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Kelley, Todd R. – Technology and Engineering Teacher, 2020
Teaching students the design process and providing opportunities for design is at the core of engineering/technology education. The design process is a key feature of technological literacy, and design is the most represented element within "Standards for Technological Literacy" (ITEA/ITEEA 2000, 2002/2007; Lewis, 2005; Wicklein, 2006).…
Descriptors: Design, Elementary Secondary Education, STEM Education, Engineering Education
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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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