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Showing 1 to 15 of 24 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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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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Potter, Barry S.; Ernst, Jeremy V.; Glennie, Elizabeth J. – Technology and Engineering Teacher, 2017
Educators understand that the current assessment-based standards are not going away anytime soon. Performance based assessments (PBAs) are an effective way of determining the level of student learning that has occurred in a lesson. While some multiple-choice tests tend to only assess the memorization of factual knowledge, PBAs focus on…
Descriptors: Performance Based Assessment, STEM Education, Pilot Projects, High School Students
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Moye, Johnny J.; Owens, Franklin – Technology and Engineering Teacher, 2017
This is the ninth in a series of articles entitled "The Legacy Project." The Legacy Project focuses on the lives and actions of leaders who have forged our profession into what it is today. Members of the profession owe a debt of gratitude to these leaders. One simple way to demonstrate that gratitude is to recognize these leaders and…
Descriptors: Interviews, Leaders, Motivation, Science Education
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Wells, John G. – Technology and Engineering Teacher, 2016
The PIRPOSAL model is both a conceptual and pedagogical framework intended for use as a pragmatic guide to classroom implementation of Integrative STEM Education. Designerly questioning prompted by a "need to know" serves as the basis for transitioning student designers within and among multiple phases while they progress toward an…
Descriptors: STEM Education, Models, Engineering Education, Integrated Activities
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Prasa, Anthony R., Jr.; Del Guercio, Ryan – Technology and Engineering Teacher, 2016
Engineers are faced with solving important problems every day and must follow a step-by-step design process to arrive at solutions. Students who are taught an effective design process to apply to engineering projects begin to see problems as an engineer would, consider all ideas, and arrive at the best solution. Using an effective design process…
Descriptors: Engineering Education, Engineering, Secondary School Science, High School Students
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Caccavale, Frank – Technology and Engineering Teacher, 2016
Any parent, teacher, or coach who works with students today will admit there is a lot of competition for a student's time and attention. After school dismisses, video games, homework, sports, extracurricular activities, and more occupy students' time. It is equally as challenging to compete for their attention during the school day. New electives…
Descriptors: STEM Education, Technology Education, Engineering Education, Learner Engagement
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Johns, Gary; Mentzer, Nathan – Technology and Engineering Teacher, 2016
Teachers can find opportunities to incorporate design thinking and scientific inquiry within any lesson where a constraint of the design can be connected to a scientific experiment. Within a lesson, this connection establishes context between engineering and science and can positively impact students' learning and interest in these subjects. The…
Descriptors: Integrated Curriculum, Design, Inquiry, Engineering Education
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Bartholomew, Scott – Technology and Engineering Teacher, 2015
STEM (Science, Technology, Engineering, and Math) is a buzzword in America (Ames, 2013; Woodruff, 2013). With recent pushes from the federal government (Obama, 2013) the educational landscape is changing, with an increased emphasis on STEM (Noddings, 2013; Obama, 2013). However, a clear definition of who teaches each aspect of STEM does not exist…
Descriptors: STEM Education, Teacher Qualifications, Science Education History, Academic Standards
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Grubbs, Michael – Technology and Engineering Teacher, 2013
As science, technology, engineering and mathematics (STEM) education demands greater integration across all subject areas, technology teachers can showcase many of the cross-curricular projects already occurring inside their classrooms that intrigue students and build their STEM skills. Robotics, just one of those projects, has become an excellent…
Descriptors: Engineering, Robotics, Technology Education, Middle School Students
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Rogers, Stephen – Technology and Engineering Teacher, 2013
In a middle school classroom, the science of fluidics was introduced using the rig. Afterwards the students were able to make informed choices about using air or water as the medium inside their syringes. The three kits available through the NFPA were explored, reverse-engineered, discussed, and analyzed as a lead-in to the in-house culminating…
Descriptors: Portfolios (Background Materials), STEM Education, Middle Schools, Design
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Love, Tyler S.; Strimel, Greg – Technology and Engineering Teacher, 2013
Exposing students to the application of math and science through a design-based activity can make them more technologically literate and teach integration between the STEM disciplines at an early age. This article discusses an activity that originated as a portion of a green residential house project conducted by the authors with their high school…
Descriptors: Teaching Methods, Technological Literacy, Science Activities, STEM Education
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White, David W. – Technology and Engineering Teacher, 2013
In April of 2010, the author was approached to write a proposal that would provide grant money for a summer program to take place at the Florida Agricultural and Mechanical University's Developmental Research School (FAMU DRS). The FAMU DRS functions as a normal K-12 school; however, it is administered by the Florida A&M University College of…
Descriptors: Academic Achievement, African American Students, Engineering, Summer Programs
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Berkeihiser, Mike; Ray, Dori – Technology and Engineering Teacher, 2013
The interdisciplinary approach that science, technology, engineering and mathematics (STEM) projects inspire in both teachers and students "brings to light a larger picture that promotes real-world scientific applications, which has in turn been shown to increase undergraduate persistence in STEM." The high school students have been…
Descriptors: Advanced Placement, Interdisciplinary Approach, Science Education, Engineering
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