Conference Session

Engineering Physics & Physics Division Technical Session 3

Collection

2017 ASEE Annual Conference & Exposition

Authors

Ramanitharan Kandiah P.E., Central State University; Subramania Iyer Sritharan, Central State University; Gorgui S. Ndao, Central State University

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Diversity

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Engineering Physics & Physics

. identify potential future students and to guide and mentor them in exploring their career options and opportunities, b. elevate the educational gaps between the high school and the first year university for a potential candidate by introducing intermediate topics that can bridge the gaps, and c. provide a campus environment in which the middle school students and high school students can experience their independence and learn responsible decision making as growing adultsThe recruitment avenues include summer or weekend camps for the targeted students and areascience fairs, and feeder school visits (Barger et. al, 2104). Among them, summer camps withspecific themes for the middle and high school students are one of the

Conference Session

Engineering Physics & Physics Division Technical Session 3

Collection

2015 ASEE Annual Conference & Exposition

Authors

Genaro Zavala, Tecnologico de Monterrey and Universidad Andres Bello; Angeles Dominguez, Tecnologico de Monterrey and Universidad Andres Bello; Arturo Cristian Millan, Universidad Andres Bello; Mauricio Gonzalez, Universidad Andres Bello

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Engineering Physics & Physics

students’perception of the relevance of physics and mathematics to their professional career, which is, inthis case, engineering. In this study 232 students taking first and second year physics and mathcourses at a large private university in Chile participated. We used a Likert-scale instrument inwhich students chose from a “Totally agree” to “Totally disagree” scale of statements related torelevance of science and mathematics for future career and study. The results of this studydiscuss four aspects: 1) the students’ perceptions of the relevance of physics and mathematics ofscholar engineering and professional engineering practices, 2) the comparison of students’perceptions of the relevance of physics to that of mathematics, 3) gender differences on

Conference Session

Engineering Physics Technical Session 2

Collection

2016 ASEE Annual Conference & Exposition

Authors

Genaro Zavala, Tecnologico de Monterrey and Universidad Andres Bello ; Angeles Dominguez, Tecnologico de Monterrey and Universidad Andres Bello

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Engineering Physics & Physics

’ perception of the relevance of physics and math,and found that students in general do not appreciate the importance of mathematics and physicsin engineering, neither as a professional career nor as a basis for other courses in their degree.We also found that first-semester students have a better perception of physics and mathematicsthan third-semester students and that the perception of the importance of mathematics is higherthan that of physics. These and other findings have helped us to recommend some actions to theDepartment of Mathematics and Physics of that university. After this experience, we conducted asimilar study with engineering students in a Mexican university. This study’s populationconsisted of 1073 students taking first and third

Conference Session

K-12 & Pre-College Engineering Division: Engineering Alignment with Core Curriculum (Physics)

Collection

2016 ASEE Annual Conference & Exposition

Authors

Meera N.K. Singh PEng, University of Calgary; Qiao Sun, University of Calgary; Cassy M. Weber, Science Alberta Foundation (o/a MindFuel)

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Engineering Physics & Physics, Pre-College Engineering Education Division

career talks in K-12classrooms. Although these programs are met with some anecdotal success, they do not globallyaddress the daily issues associated with traditional teaching methods in K-12 classrooms.Enrolment issues may be better addressed by engineering academics if their efforts were directedtoward providing research support in the evaluation of educational tools that may support highschool teachers in delivering content in a manner that appeals to their daily instructional needsand to the diverse learning needs of the students. Teachers would then be better prepared toindependently deliver content in a manner that appeals to their daily instructional styles and tothe diverse learning needs of the students.Students in today’s K-12 space are

Conference Session

Engineering Physics & Physics Division Technical Session 3

Collection

2017 ASEE Annual Conference & Exposition

Authors

Kanti Prasad, University of Massachusetts, Lowell

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Engineering Physics & Physics

room is of utmost importance. In orderof-Art technologies, so that the contents never to emphasize it, I would like to recite a number ofbecome obsolete. This assures preparing the Hi-Tech courses that I am involved in teachingstudents for the 21st century so that they can take and research at the moment.the suitable place in the technological world,thereby becoming the productive citizens in thesociety. During my teaching career of 30+ years,teaching Hi-Tech courses, I have foundintegration of fundamentals is very useful in thesecourses. However, teaching must translate intolearning by the students. No new information canbecome knowledge until or unless it is yokedwith the existing database of the students. Wemust

Conference Session

Engineering Physics & Physics Division Technical Session 3

Collection

2015 ASEE Annual Conference & Exposition

Authors

Brian Huang, SparkFun Electronics

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Engineering Physics & Physics

Paper ID #14073Open-source Hardware – Microcontrollers and Physics Education - Integrat-ing DIY Sensors and Data Acquisition with ArduinoMr. Brian Huang, SparkFun Electronics Brian Huang is an Education Engineer for SparkFun Electronics, a cutting edge open-source hardware and electronics education company. Brian started his career in engineering with wireless transport tech- nologies for ADC Telecommunications in Minneapolis, MN. While working at ADC, Brian volunteered at the Science Museum of Minnesota and quickly discovered a passion for teaching and working with students - especially in an environment that fostered and

Conference Session

Engineering Physics Technical Session 3

Collection

2016 ASEE Annual Conference & Exposition

Authors

Greg S Mowry, University of St. Thomas; Camille M George, University of St. Thomas

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Engineering Physics & Physics

with business, law, and engineering expertise,at both the graduate and undergraduate level.Finally, we have observed that one of the outcomes for the students involved in the humanitariansenior design projects is that their world-view changes. Many of these students, anecdotally after-the-fact, indicate that they want to reorient their career goals to pursue careers that havehumanitarian objectives. These outcomes line-up with the objectives of the ‘Peace Engineering’29and REAL30 outreach programs in the School of Engineering at the University of St Thomas.AcknowledgementsIn order to be successful, projects like those just described require the integrated efforts of manygroups and individuals. We would like to thank the ICRISAT-Mali teams for

Conference Session

Engineering Physics & Physics Division Technical Session 3

Collection

2017 ASEE Annual Conference & Exposition

Authors

Yumin Zhang, Southeast Missouri State University; David K. Probst P.E., Southeast Missouri State University

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Engineering Physics & Physics

Paper ID #18619Thinking and Understanding from WritingProf. Yumin Zhang, Southeast Missouri State University Yumin Zhang is an associate professor in the Department of Physics and Engineering Physics, Southeast Missouri State University. His academic career started in China; in 1989 he obtained master’s degree on Physics from Zhejiang University and then was employed as technical staff in the Institute of Semi- conductors, Chinese Academy of Sciences. After receiving PhD degree on Electrical Engineering from University of Minnesota in 2000, he started to work as a faculty member in University of Wisconsin- Platteville

Conference Session

Engineering Physics Technical Session 3

Collection

2016 ASEE Annual Conference & Exposition

Authors

Hamid Mohajeri, DeVry University, Pomona , CA , 91768

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Diversity

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Engineering Physics & Physics

?  Would QM skill, if well developed, be useful in your Engineering Career?  Would you think that QM should be taught in all Engineering disciplines programs?  If a student can understand Basic QM mathematical formulations well, then would you think dealing with other physical concepts such as electromagnetism, thermodynamics, classical mechanics, etc…. be easier ?  Would knowing QM be enabling you to communicate more effectively in any physical arguments?  Don’t you think that knowing QM as an intellectual tool would impress your interviewer and generally in your resume for job application would show an outstanding advantage?  At some stages during physics class some students feel so overwhelmed by

Conference Session

Engineering Physics Technical Session 3

Collection

2016 ASEE Annual Conference & Exposition

Authors

Kanti Prasad, University of Massachusetts, Lowell

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Diversity

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Engineering Physics & Physics

2 =0.04682564∴F(t) = 0.2164i.e., 21.64 devices would fail after 10 years.3. Correlation Between Fundamentals and Preparing the Workforce for21st Century. The technology is evolving all the time, but the fundamentalprinciples hardly change. It is therefore the solemn duty of instructors in theclassroom to integrate the fundamentals in any State-of-Art technology. Thiswill ensure that the engineering students who are product of such teachingmethodology never become obsolete. During my own teaching tenure I havegraduated several hundreds of students who are placed in the high techindustry regionally, nationally, as well as internationally, who are vibrantand dynamic throughout their careers as have been found from the surveysof

Conference Session

Engineering Physics Technical Session 4

Collection

2016 ASEE Annual Conference & Exposition

Authors

Rodrigo Cutri P.E., Instituto Mauá de Tecnologia; Paulo Alexandre Martin, Instituto Mauá de Tecnologia; Nair Stem, Instituto Mauá de Tecnologia; Keiti Pereira Vidal Souza, Instituto Mauá de Tecnologia

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Engineering Physics & Physics

part of an EngineeringCourse that adopt direct and indirect learning support actions. The actions discussed were appliedto a Physics I course for freshman students at our Engineering School (a university of 1000students—700 Day/300 Night) 1.Direct and indirect learning support actionsWith the aim to get the students more engaged in their course2,3,4 and at the same time to helpthem develop different skills that are necessary for their future professional careers, theimplemented learning support actions took into account that each student has different grades offacility regarding their particular way of learning (visual presentations, solving problems, etc.).These Learning Support Actions are initially divided into indirect learning actions

Conference Session

Engineering Physics Technical Session 2

Collection

2016 ASEE Annual Conference & Exposition

Authors

James O'Brien, Wentworth Institute of Technology; Gergely Sirokman, Wentworth Institute of Technology; Franz J Rueckert, Wentworth Institute of Technology

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Engineering Physics & Physics

science career decisions and active learning.CBE - Life Sciences Education, 6, 297-306.[4] Lopatto, D. (2004). Survey of Undergraduate Research Experiences (SURE): First findings. Cell BiologyEducation, 3, 270-277.[5] Lopatto, D. (2004). What undergraduate research can tell us about research on learning. Washington, DC:Project Kaleidoscope.[6] Doreen Hinkel, Scott Henke J. Nat. Resour. Life Sci. Educ. Issue 35 pp.194–201 (2006)[7] Philip D. Mannheim, “Alternatives to Standard Gravity”, Physical Review D, 2006[8] James G. O’Brien and Robert Moss, “Rotation Curve for the Milky Way Galaxy in Conformal Gravity”,American Journal of Modern Physics, 2014[9] Greg Sirokman, “Student-constructed Biodiesel Processor: Applied Undergraduate Research in

Conference Session

Engineering Physics & Physics Division Technical Session 2

Collection

2015 ASEE Annual Conference & Exposition

Authors

Angeles Dominguez, Tecnologico de Monterrey & Universidad Andrés Bello; Jorge Eugenio de la Garza Becerra, Tecnologico de Monterrey (ITESM)

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Diversity

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Engineering Physics & Physics

reflects the physicist’s way ofunderstanding the world, so we should teach physics that way.The importance of nurturing a scientific curiosity and motivating young students’ understandingof science has been addressed for many years1 and that call invites everyone2. As Barak Obamarecently reinforced: “we want to make sure that those who historically have not participated inthe sciences as robustly -girls, members of minority groups here in this country- that they areencouraged as well”3. In this call, physics and mathematicians become the main filters of young Page 26.353.2students’ career decisions. We want them to select a program because it has

Conference Session

Engineering Physics & Physics Division Technical Session 3

Collection

2015 ASEE Annual Conference & Exposition

Authors

Andrew Elby, University of Maryland, College Park; Eric Kuo, Stanford University; Ayush Gupta, University of Maryland, College Park; Michael M. Hull, Wayne State College

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Diversity

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Engineering Physics & Physics

theirsubsequent engineering courses and careers? Faculty often mention “problem solving skills” and“conceptual understanding”; but decades of physics and engineering education research havebarely addressed this question empirically.1-3Some engineering educators argue that traditional close-ended, well-structured and well-definedproblem-solving of the type demanded by end-of-chapter problems in physics textbooks isimportant to emphasize, because it develops skills that students can build on and apply in laterengineering classes. Others argue that mathematical sense-making—translating and seekingcoherence between mathematical formalism and physical reasoning (often intuitive), usingmathematics flexibly as part of sense-making about the physical world—is