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Direct linkSara Schley; Mel Chua; Joseph Le Doux; Veronica van Montfrans; Todd Fernandez – Biomedical Engineering Education, 2023
Human bodies vary widely: height, weight, blood volume, handedness, strength, and variations from disabilities, trauma, genetics, etc. Engineers must be trained to include human variance when designing human-interactive systems. Typically, this is not incorporated into mathematical and modeling focused courses. In the spring of 2019, one of three…
Descriptors: Human Body, Biomechanics, Cooperative Learning, Problem Solving
Noah Goshi; Gregory Girardi; Hyehyun Kim; Erkin Seker – Biomedical Engineering Education, 2023
There is a need for novel teaching approaches to train biomedical engineers that are conversant across disciplines and have the technical skills to address interdisciplinary scientific and technological challenges. Here, we describe a graduate-level miniaturized biomedical device engineering course that has been taught over the last decade in…
Descriptors: Experiential Learning, Biomedicine, Equipment, Teaching Methods
Download full textFrederick R. Missel; Jeremy V. Ernst; Daniel P. Kelly; Erik Schettig; Aaron C. Clark – Technology and Engineering Teacher, 2023
For students to gain the most out of education, they need to form long-term memories from experiences gained through active learning. The greatest distinction between active learning and traditional approaches involves the types of tasks and problems the students are challenged to solve. Active learning activities should be structured with student…
Descriptors: Active Learning, Engineering Education, Computer Graphics, Design
Bara, Jason Edward; McLemore, John Patrick – Chemical Engineering Education, 2020
There appears to be no published knowledge regarding how humans use unit conversions. Until very recently, acquiring such data would be essentially impossible, but mobile devices have now enabled many questions to be answered through passive "crowdsourcing" of big data sets. This work details the analysis of five years of anonymous user…
Descriptors: Telecommunications, Handheld Devices, Foreign Countries, Computation
Asfaw, Abraham; Blais, Alexandre; Brown, Kenneth R.; Candelaria, Jonathan; Cantwell, Christopher; Carr, Lincoln D.; Combes, Joshua; Debroy, Dripto M.; Donohue, John M.; Economou, Sophia E.; Edwards, Emily; Fox, Michael F. J.; Girvin, Steven M.; Ho, Alan; Hurst, Hilary M.; Jacob, Zubin; Johnson, Blake R.; Johnston-Halperin, Ezekiel; Joynt, Robert; Kapit, Eliot; Klein-Seetharaman, Judith; Laforest, Martin; Lewandowski, H. J.; Lynn, Theresa W.; McRae, Corey Rae H.; Merzbacher, Celia; Michalakis, Spyridon; Narang, Prineha; Oliver, William D.; Palsberg, Jens; Pappas, David P.; Raymer, Michael G.; Reilly, David J.; Saffman, Mark; Searles, Thomas A.; Shapiro, Jeffrey H.; Singh, Chandralekha – IEEE Transactions on Education, 2022
Contribution: A roadmap is provided for building a quantum engineering education program to satisfy U.S. national and international workforce needs. Background: The rapidly growing quantum information science and engineering (QISE) industry will require both quantum-aware and quantum-proficient engineers at the bachelor's level. Research Question:…
Descriptors: Program Development, Engineering Education, Labor Needs, Quantum Mechanics
Hamdani, Isma; Ouahmiche, Ghania – International Online Journal of Education and Teaching, 2022
The need to use English in diverse professional domains is increasingly growing throughout the world. Therefore, a Needs Analysis approach is deemed wise to design English for Specific Purposes courses that not only cater for students' academic needs but their target professional requirements as well. Accordingly, the present study attempts to…
Descriptors: English for Special Purposes, Engineering, Educational Needs, Engineering Education
Guajardo-Cuéllar, Alejandro; Vázquez, Carlos Renato; Navarro Gutiérrez, Manuel – Education Sciences, 2022
Design of Mechanism is a standard subject in Mechatronics and Mechanical Engineering majors. Different methods and tools are used by lecturers to teach the subject. In this work, we investigate the impact on the competencies development by implementing a project-based learning methodology in a mechanism course. For this, we analyze the performance…
Descriptors: Engineering, Engineering Education, Mechanics (Physics), Student Projects
Roman, Harry T. – Technology and Engineering Teacher, 2022
This article discusses a design contest where students can submit new technology designs and be judged for their creativity and unique ideas. Design contests are a wonderful way to stimulate creativity and build student confidence. In this article the author explores some of the issues of importance involved in designing and launching such a…
Descriptors: Design, Competition, Creativity, Self Esteem
Sangwan, Kuldip Singh; Singh, Rajni – Higher Education, Skills and Work-based Learning, 2022
Purpose: Problem solving skills (PSS), an important component of learning outcomes, is one of the desirable skills in engineering graduates as stated by many employers, researchers and government bodies in India for a strong foothold in professional world. There is a need to develop comprehensive understanding and integration of theory (concept)…
Descriptors: Experiential Learning, Problem Solving, Engineering Education, College Students
Faber, Courtney J.; Kajfez, Rachel L.; Lee, Dennis M.; Benson, Lisa C.; Kennedy, Marian S.; Creamer, Elizabeth G. – Journal of Research in Science Teaching, 2022
Undergraduate research experiences (UREs) in science and engineering offer a number of positive outcomes to the students who are able to participate, including increased retention, clarified career goals, and development of problem-solving skills. There have been a number of calls for research that investigates the experiences, identity, and…
Descriptors: Undergraduate Students, Student Research, Engineering Education, Epistemology
Didiano, Teresa J.; Simpson, Annie E.; Bayless, David – New Directions for Student Leadership, 2022
This article describes transformative, impactful pedagogical practices that engage students in the process of leadership development. We share practical examples of instructional strategies and facilitation techniques from curricular and co-curricular initiatives.
Descriptors: Leadership Training, Teaching Methods, Student Participation, Engineering Education
Svihla, Vanessa; Chen, Yan; Kang, Sung – Journal of Engineering Education, 2022
Background: Engineering programs have increasingly incorporated design challenges into courses. These design challenges vary in the degree to which they present complex, ill-structured, and relevant problems, and therefore may vary in the degree to which they support students to learn to frame design problems. Purpose/Hypothesis: We characterized…
Descriptors: College Freshmen, Engineering Education, Design, Problem Solving
Reynante, Brandon – Journal of Engineering Education, 2022
Background: Community-engaged learning initiatives in engineering often struggle to achieve equitable outcomes for community partners because students in such programs often possess a design-for-charity mindset, which is characterized by an uncritical desire to help and the design of solutions that address symptoms of inequity without meaningful…
Descriptors: Social Justice, Community Involvement, Engineering Education, Undergraduate Students
Docherty, Paul D.; Zaka, Pinelopi A.; Fox-Turnbull, Wendy – Research Papers in Education, 2022
The flipped classroom is an emerging strategy for the delivery of technical threshold content within tertiary engineering programs. In this study, we measure the effect that the approach has on the immediate and ongoing academic success of four cohorts of engineering dynamics students in New Zealand. Two cohorts (N = 865) received traditional…
Descriptors: Foreign Countries, Flipped Classroom, Engineering Education, Academic Achievement
Acar, Dilber – Journal of Turkish Science Education, 2022
This study aimed to determine the "engineer" perception of 48- 72 month-old children in pre-school education. Phenomenological design, one of the qualitative research methods, was used in the study. The study group of the research consist of 52 children between the ages of 48 and 72 months attending pre-school at one private and one…
Descriptors: Engineering, Technical Occupations, Childrens Attitudes, Kindergarten
