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Christensen, Brad – Technology and Engineering Teacher, 2021
The value of doing projects as a vehicle for instruction has been integral to technology and engineering classes for decades. With the increased emphasis on STEM, project-based learning is becoming more popular with all teachers. Realistically, classrooms can be limited, however, in the tools, materials, and processes needed for project-based…
Descriptors: STEM Education, Art Education, Student Projects, Active Learning
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
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
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
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
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
Moye, Johnny J.; Reed, Philip A. – Technology and Engineering Teacher, 2020
In this quickly evolving digital world, the technology and education (T&E) education classroom can provide valuable instruction that creates a well-informed online citizenry through digital understanding and citizenship curriculum. For twenty years, "Standards for Technological Literacy" (STL) (ITEA/ ITEEA, 2000/2002/2007) provided…
Descriptors: Standards, Technological Literacy, Engineering Education, Elementary Secondary Education
Kelley, Todd R. – Technology and Engineering Teacher, 2017
As national STEM initiatives focus on engineering design as a STEM integrator, a more important concern for K-12 educators should be teaching design fundamentals and using these experiences to help students obtain STEM content knowledge. There appears however, to be little instruction and emphasis on building students' design-sketching skills in…
Descriptors: Drafting, Design, Engineering Education, Engineering Technology
Rigler, Kenny – Technology and Engineering Teacher, 2017
The first steps in the engineering design process are to identify and define the problem (Eide, Jenison, Mashaw, & Northup, 2001). The primary purpose of this article is to highlight the problem that has existed for the past three decades (a disconnect between industrial educators and proponents of technological literacy) and to make a…
Descriptors: Technological Literacy, Industrial Arts, Design, Design Requirements
Krause, Liesl A.; Strimel, Greg J.; Rispoli, Joseph – Technology and Engineering Teacher, 2018
Broadening participation in STEM education programs and boosting the STEM workforce, specifically increasing interest in engineering, has been a growing focus of the U.S. education system (Lawrence & Mancus, 2012; Strimel, Grubbs, & Wells, 2017). The Bureau of Labor Statistics projects overall STEM employment to grow by 8.9% from 2014 to…
Descriptors: Biomedicine, Engineering, Engineering Education, Social Responsibility
Huffman, Tanner J.; Grubbs, Michael E.; Strimel, Greg J.; Gurganus, Jamie – Technology and Engineering Teacher, 2018
The "Advancing Excellence in P-12 Engineering Education" (AEEE) project has sought to provide direction on better detailing what secondary students should know, and approaches for educators to nurture such learning experiences. Through the "Excelling in Engineering" series, the AEEE leadership offers educators socially,…
Descriptors: Secondary School Students, Engineering Education, Concept Formation, STEM Education
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
Mitts, Charles R. – Technology and Engineering Teacher, 2016
The International Technology and Engineering Educators Association (ITEEA) defines STEM as a new transdisciplinary subject in schools that integrates the disciplines of science, technology, engineering, and mathematics into a single course of study. There are three major problems with this definition: There is no consensus in support of the ITEEA…
Descriptors: STEM Education, Technology Education, Engineering Education, Intellectual Disciplines
Love, Tyler S.; Duffy, Brian C.; Loesing, Mary L.; Roy, Kenneth R.; West, Sandra S. – Technology and Engineering Teacher, 2020
The purpose of this article is to examine the level of emphasis placed on safety concepts and guidelines in "Standards for Technological and Engineering Literacy" ("STEL") (ITEEA, 2020) in comparison to other current science, technology, engineering, and math (STEM) content area standards and frameworks. The authors who…
Descriptors: STEM Education, Occupational Safety and Health, Content Analysis, Safety Education
Deal, Walter F., III; Hsiung, Steve C. – Technology and Engineering Teacher, 2017
Sensors of all kinds play significant roles in the way that we use and interact with technological devices today. Smartphones, household appliances, automobiles, and other products that we use every day incorporate many different kinds of sensors. While the sensors are hidden from view in the products, appliances, and tools that we use, they…
Descriptors: Engineering Education, Engineering Technology, Robotics, Electronic Equipment