Engineering - nanotechnology

Discipline Group: 

Engineering

Synergies STEM Interest Questionnaire

The dramatic decline in youth interest in science, technology, engineering and mathematics (STEM) during adolescence, both in the USA and internationally, has been a phenomenon of societal concern for several decades. The Synergies project was launched to help deal with this issue. In this paper, we report findings from the first two years of our longitudinal survey research.

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Engineering Skills Self-Efficacy Scale

Background

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Instrument to Measure the Entrepreneurial Mindset of Engineering Students

This work in progress describes the development of an instrument to measure the entrepreneurial mindset of engineering students.

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Engineering Identity Development Among Pre‐Adolescent Learners

The purpose of this study was to examine the development of the Engineering Identity Development Scale (EIDS), an instrument designed to assess elementary school students' identity development in engineering. This study describes a three-phase approach to item construction, administration, and the gathering reliable and valid evidence for scores on the EIDS. 

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Social and Critical Consciousness Across the Engineering Curriculum

Driven by scholarly work that promotes incorporating the study of social justice issues in the engineering curriculum, this work-in-progress paper focuses on teaching social and critical consciousness in engineering.

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Building Automation and IoT as a Platform for Introducing STEM Education in K-12

There is growing concern in the United States about the lack of interest and aptitude in science, math and, in particular, technology and engineering disciplines. Certainly one reason for this could be the lack of true engineering experiences available to students when they are in junior high and high school. This is in part due to the fact that while most teachers are well versed in math and science through their formal education, very few have experience and/or educational backgrounds in engineering and technology.

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Preparing Teachers to Engage Rural Students in Computational Thinking through Robotics, Game Design, and Culturally Responsive Teaching

This article examines teacher preparation and teacher change in engineering and computer science education. We examined culturally responsive teaching self-efficacy (CRTSE), culturally responsive teaching outcome expectancy (CRTOE) beliefs, and attitudes toward computational thinking (CT) as teachers participated in one of three treatment groups: robotics only, game design only, or blended robotics/game design. Descriptive data revealed that CRTSE gain scores were higher in the robotics only and blended contexts than in the game design only context.

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Modeling and Simulation: How Everything seems to Form and Grow

The ideas in this article resulted from many years of research in engineering, physics, computer, and cognitive sciences, as well as teaching experience in college and 

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Exploring the Engineering Design Process Through Computer-Aided Design and 3-D Printing

This publication reports on how to use engineering design to solve problems by students in Grade 6-8. It is approximately $25 per class (if you already own a 3-D printer).

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Technologies to Support Engineering Education

This entry describes technologies that support engineering education, such as 3D printing, computer-assisted design, electromechanical systems and instrumentation, and control systems. Engineering education is one of four disciplines within STEM (science, technology, engineering, and mathematics) education. While science and mathematics are commonly regarded as core subjects in schools, engineering has had a less prominent role in K–12 education. However, engineering is increasingly used to teach science in context.

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