Conference Session

Work in Progress: Hands-on Activities

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Negar Beheshti Pour, University of California - Berkeley; David B. Thiessen, Washington State University; Bernard J. Van Wie, Washington State University; Kitana Kaiphanliam, Washington State University; Aminul Islam Khan, Washington State University; Prashanta Dutta, Washington State University; Olivia Reynolds, Washington State University; Katelyn Dahlke, University of Wisconsin - Madison; Olusola Adesope, Washington State University; Olufunso Oje, Washington State University; Jacqueline Gartner Ph.D., Campbell University

Tagged Divisions

Chemical Engineering

programming.Jacqueline Burgher Gartner, Campbell University Jacqueline Burgher Gartner is an Assistant Professor at Campbell University in the School of Engineering, which offers a broad BS in engineering with concentrations in chemical and mechanical. c American Society for Engineering Education, 2020 Design Philosophy and System Integrity for Propagation of Hands-on Desktop Learning Modules for Fluid Mechanics and Heat TransferAbstractWe focus on a strategy others may use for propagating use of hands-on learning tools, in this casedesktop learning modules (DLMs) for fluid mechanics and heat transfer courses. To accomplish this afaculty member needs to pay close attention to several factors

Conference Session

Mechanical Engineering Technical Session: Curriculum and Education

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Michele Miller, Campbell University

Tagged Divisions

Mechanical Engineering

common polymer manufacturing processes, the newmodule has these student learning objectives: • Demonstrate curiosity about the manufacturing of plastics products that are all around us • Integrate information from multiple sources to gain insight about the pluses and minuses of plastics manufacturing processes • Predict the plastics manufacturing cost for a small part based on quantity • Choose an optimal manufacturing process to meet customer requirements • Mitigate the occurrence of flaws in the manufacture of a plastic partThe module pursued these objectives with three main activities: • Question Formulation Technique (QFT) • Jigsaw • Mini-design project and business proposal for producing a plastic swag

Conference Session

Chemical Engineering in K-12 and the First Year

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Anthony Butterfield, University of Utah

Tagged Topics

Diversity

Tagged Divisions

Chemical Engineering

suited forchemical engineers. In short, as engineers we are relatively late to the makerspace movement,likely due to the complications of incorporating wet chemistry with process design, and a studentbody that is not often trained on machining tools or expected to develop CAD skills. Regardless,the advances we have made as an engineering discipline in this area could use additional scrutinyto discern what has worked for a chemical engineering population and what has not.In this work I describe the design and impacts of a makerspace at the University of Utah, createdspecifically for chemical engineering curriculum. Results are compared from a first-yearchemical engineering design course taught both in a traditional unit operation laboratory

Conference Session

Biomedical Engineering Curriculum and Design - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Kelsey Nicole Warren, Kansas State University; Charles Carlson, Kansas State University; Steve Warren, Kansas State University

Tagged Divisions

Biomedical Engineering

that could be reasonably incorporatedinto courses that support undergraduate students with little-to-no design experience, (b) effortsthat map to the emphasis areas for this new BME program, (c) student-learning assessmenttechniques that have proved useful in these hands-on contexts, and (d) projects that would makeinteresting recruiting examples for high school students considering such a program. The overallgoal of this work is to allow lessons learned from these earlier efforts to inform projects offeredas part of this new BME curriculum. This paper presents (1) an overview of this new curriculum,(2) the skillsets that this new BME program intentionally addresses and the courses that willsupport that skillset development, (3) BME project

Conference Session

Pre-college Engineering Education Division Technical Session 7

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Malle R. Schilling, Virginia Polytechnic Institute and State University; Tawni Paradise, Virginia Tech Department of Engineering Education; Jacob R. Grohs, Virginia Polytechnic Institute and State University; Holly M Matusovich, Virginia Polytechnic Institute and State University; Cheryl Carrico P.E., Cheryl Carrico Consulting, LLC; Holly Larson Lesko; Gary R. Kirk, Dickinson College

Tagged Divisions

Pre-College Engineering Education

engineering pedagogical content knowledge and engineering engagement, whichled to an overall increase in teaching engineering self-efficacy [19]. Other studies have alsofound that the integration of robotics projects into various disciplines increased the involvedteachers’ self-efficacy around the use of robotics into middle school curriculum [20]. Immersingteachers in laboratory settings and research experiences has also been effective at increasing highschool teachers’ self-efficacy in content areas such as nanotechnology [21], as well as shiftingtheir perceptions of engineering as a field [22]. These examples of professional developmentactivities embody the five principles of professional development and ultimately demonstratedthe effectiveness of

Collection

2020 First-Year Engineering Experience

Authors

Benjamin D McPheron, Anderson University; Willis Troy, Anderson University; Caroline Baker, Anderson University

retention.Significant research has been conducted across many engineering programs at many universitiesto integrate labs and projects into the first semester of engineering. Most of the universities whohave successfully integrated labs into their first semester of engineering are very large research-oriented universities with significant resources, which differs from the work described in thispaper. A few notable examples of the inclusion of labs in the first-year curriculum are surveyedhere. Ohio State reports the use of hands on labs integrated with a semester project, as early as2001, and continuing to present [1]-[3]. At Louisiana Tech, the engineering program has leverageda student owned lab (which they call “Living with the Lab”) to improve hands-on

Conference Session

Developing Technological Literacy in Students

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Neelam Prabhu Gaunkar, Iowa State University; Mani Mina, Iowa State University of Science and Technology

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

why many engineering students do not recall much of the important items in theirclasses in the following term after taking the class [7,8].As faculty we need to ask how we can facilitate students’ engagement and their retention of thefundamentals that are connected throughout classes, and curriculum, as well as their practice.So, the challenge is how to help students’ to know beyond the basics, the fundamentals, andthe essential points and dominant ideas. They need to remember the connections that maketheir knowledge more coherent and integrated to learn new things on their own. We need toeducate and empower students’ to become lifelong learners. This starts by asking goodquestions, being able to read, digest, take notes, and face new facts

Conference Session

Construction Engineering Division Technical Session 4

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Kimberly Grau Talley P.E., Texas State University; Bobbi J. Spencer, Texas State University

Tagged Topics

Diversity

Tagged Divisions

Construction Engineering

CurriculumAbstractEnrollment figures for the construction program at Texas State University indicate an imbalancein the ratio between pre-majors and matriculated majors. The pre-major program is designed totake three semesters but contains two-thirds of the majors in the construction program. Thispaper reports on the work in progress self-study to determine the stumbling points for studentsin this pre-major program. Institutional research data will be used to identify courses in the pre-construction curriculum with the highest rates of students receiving unsatisfactory grades (D, F,or W) for credit in order to identify any courses creating an unintended gate to matriculation. Inaddition to the examination of course grades, student enrollment and retention data will

Conference Session

Course Transformation in ECE

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Mohamed Khaled Elshazly, University of Toronto; Hamid S. Timorabadi, University of Toronto

Tagged Divisions

Electrical and Computer

modelling of electrochemical energy storage devices.Dr. Hamid S Timorabadi P.Eng., University of Toronto Hamid Timorabadi received his B.Sc, M.A.Sc, and Ph.D. degrees in Electrical Engineering from the University of Toronto. He has worked as a project, design, and test engineer as well as a consultant to industry. His research interests include the application of digital signal processing in power systems. American c Society for Engineering Education, 2020WIP: Exploring Pedagogical Alternatives for Incorporating Simulations in an Introductory Power Electronics CourseAbstractIn Fall 2018, we developed LabSim, a set of circuit simulators for a

Conference Session

The Best of First-year Programs Division

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Holly M. Matusovich, Virginia Polytechnic Institute and State University; Homero Murzi, Virginia Polytechnic Institute and State University; David Gray, Virginia Polytechnic Institute and State University; Benjamin D. Chambers, Virginia Polytechnic Institute and State University; Matthew B. James, Virginia Polytechnic Institute and State University

Tagged Divisions

First-Year Programs

programs more relevant andengaging for our students, this is something that did not emerge from our data. Hence, weconsider we would like to explore this phenomenon better in the future.References[1] J. E. Froyd and G. J. Rogers, “Evolution and evaluation of an integrated, first-year curriculum,” in Proceedings Frontiers in Education 1997 27th Annual Conference. Teaching and Learning in an Era of Change, 1997, vol. 2, pp. 1107–1113.[2] C. E. Brawner, X. Chen, M. W. Ohland, and M. K. Orr, “The effect of matriculation practices and first-year engineering courses on engineering major selection,” in 2013 IEEE Frontiers in Education Conference (FIE), 2013, pp. 1217–1223, doi: 10.1109/FIE.2013.6685023.[3] H. V. Chang, Autoethnography as

Conference Session

First-Year Programs: Metacognition, Self-Efficacy, and Motivation #1

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Abigail M. Richards, Montana State University; Ryan Anderson, Montana State University; Carrie B. Myers, Montana State University

Tagged Divisions

First-Year Programs

students returned to give additionalpresentations to the freshman students to focus on the environmental and societal impacts of theirdesign projects. We report baseline engineering identity in this paper.IntroductionThis work hypothesizes that 1) peer-based interventions implemented within the existingcurriculum can help teach underclassman ‘what it means to be an engineer’ and 2) participationin these interventions will stimulate engineering identity formation during the first one and twoyears of the curriculum, which will better retain students. Multiple reports have expressed theconcern that there will be at least a one-million-person deficit between the forecasted demand forSTEM professionals and the number of STEM graduates (Chen, 2013

Conference Session

Laboratory Courses and Programming in the Aerospace Curriculum

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Waterloo Tsutsui, Purdue University at West Lafayette; Ruben D. Lopez-Parra, Purdue University at West Lafayette (COE); Genisson Silva Coutinho, Instituto Federal de Educação, Ciência e Tecnologia da Bahia; Alberto W. Mello, Embry-Riddle Aeronautical University; Michael David Sangid, Purdue University; Tamara J. Moore, Purdue University at West Lafayette

Tagged Topics

Diversity

Tagged Divisions

Aerospace

AeromechanicsII. AAE 20401 is an aerospace structural mechanics lab course for second-year students wherethey had the opportunity to use the Virtual Lab software. When implementing the Virtual Labs,we characterized the content, assessment, and pedagogy of the course under the BackwardCourse Design Model to identify how the Virtual Lab software could be integrated into thecoursework. After a year of getting feedback on the software from the students and investigatingthe pedagogical approaches on how to use it, we introduced a new format on the use of thevirtual lab in Fall 2019. This paper describes the latest version of the lab course with theintegration of the Virtual Lab software. The curriculum design, presented in this paper, is auseful reference for

Conference Session

ENT Division Technical Session: EM Across the Curriculum I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Seyed Mohammad Seyed Ardakani, Ohio Northern University

Tagged Divisions

Entrepreneurship & Engineering Innovation

integrating previous knowledge while the emphasis of PBL is on the acquisition ofnew knowledge [3].Currently universities are utilizing entrepreneurial-minded learning (EML) as well. ThroughEML students get to solve a problem in a fashion that creates value, which helps to createengineers to make an impact in the workplace [4, 5]. EML course modulus can be created byincorporating behavioral or complementary skills into student-centered pedagogy. Examples ofsuch skills are demonstrating constant curiosity, exploring a contrarian view of acceptedsolutions, assessing and managing risk, evaluating economic drivers, examining societal andindividual needs, understanding the motivations and perspectives of others, conveyingengineering solutions in economic

Conference Session

2-Year College Division: Workforce Pathways and ATE

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Megan Morin, University of North Carolina - Chapel Hill; Alireza Dayerizadeh, North Carolina State University

Tagged Divisions

Two-Year College

Workforce team also provided training in wide bandgap (WBG)semiconductors, an emerging cutting-edge technology. WBG technologies “allow powerelectronic components to be smaller, faster, more reliable, and more efficient than their silicon(Si)-based counterparts” [11]. The benefits of WBG technology cuts across various applicationsincluding industrial motors, electronics, grid integration, utility applications, electric vehicles andplug-in hybrids, military, geothermal, and lighting. The ERC works collaboratively with anorganization that focuses on this technology. WBG has become a component of the ERC’sefforts in research. This technical lab was an opportunity to expose students to this technologybut also recruit into this high demand and

Conference Session

Sustainability and Social Responsibility

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Benjamin J. Laugelli, University of Virginia

Tagged Divisions

Liberal Education/Engineering & Society

, draws attention to the importance of using courseassignments early in an engineering curriculum to help students appreciate and attend to socialand ethical in addition to environmental and economic aspects of sustainable development. The instructors discussed above successfully integrated learning modules on sustainabledevelopment into required technical courses in civil and environmental engineering. Myendeavor to reorient the patent assignment in STS 1500 around the SDGs builds on and extendsthe learning goals discussed in these studies by applying them to a non-technical engineeringcourse in STS specifically devoted to introducing students to social and ethical aspects ofengineering practice. Like these scholars, I hoped that aligning

Collection

2017 Gulf Southwest Section Conference

Authors

Shuping Wang

them to succeed intoday's fast paced world of electronics and communications, an existing course has beenrevised and updated to include CWDM principles and their implementation examples in thecurriculum. Challenges to include CWDM in the current curriculum include the fact that adifferent set of knowledge and skills on optical sources, photodetectors, amplifiers, etc. needto be integrated into the current one-semester course that only briefly introduces optical fibercommunications. We present in detail the challenges and the methods we use to overcomethem.KeywordsCWDM, 100Gb/s Ethernet, 40Gb/s Ethernet, Telecommunication.Introduction of DWDM and CWDMDense wavelength division multiplexing (DWDM) is a technology that expands the capacityof a

Conference Session

DISTINGUISHED LECTURE: 2019 Best PIC, Zone, and Diversity Papers Live Q&A

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Katherine McConnell, University of Colorado Boulder

Tagged Topics

2019 Best Zone & PIC Papers

are engineering application and industry-based examples currently being used across the curriculum? ● What can be learned from the current practices that will help inform integration of additional industry-based content for future terms?Study ContextThe University of Colorado Boulder is a large public university with an R1 research designation.As of the Fall 2018 census date, the university had a total undergraduate enrollment of 28,756.The total undergraduate enrollment for the same term for the College of Engineering & AppliedScience was 5,085 with 979 of those students (~19%) rostered in Mechanical Engineering.Within the Department of Mechanical Engineering, 19.4% of undergraduate students identifiedas female and 15.3

Conference Session

2-Year College Division: Transferring and Smoothing Transitions

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

David Reeping, Virginia Tech; Dustin Grote; Lisa D. McNair, Virginia Tech; Thomas Martin, Virginia Polytechnic Institute and State University

Tagged Topics

Diversity

Tagged Divisions

Two-Year College

, it can be easy to focus on the experiences of first-time-in-college (FTIC)students. However, this focus is an idealization - as messaging about engineering from the firstyear is a critical junction for how students make decisions about persisting in an engineeringprogram [see 1]. Not everyone has the opportunity or chooses to begin at a four-year institution.The National Student Clearinghouse [2] reports that, in the previous ten years, 49 percent ofstudents who completed a bachelor’s degree at a four-year university in the 2015-2016 academicyear had also enrolled in a community college (two-year institution) for at least one semester.For those looking to revise their curriculum substantially, thinking about how to bridge transferstudents

Conference Session

WIP It! Faculty Development Style!

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Heather Dillon, University of Portland; Lindy Hamilton Mayled, Arizona State University; Mark L. Nagurka, Marquette University; Maria-Isabel Carnasciali, University of New Haven; Douglas E. Melton, Kern Entrepreneurial Engineering Network

Tagged Divisions

Faculty Development Division

Paper ID #28673Intercollegiate Coaching in a Faculty Professional Development Programthat Integrates Pedagogical Best Practices and the EntrepreneurialMindsetDr. Heather Dillon, University of Portland Dr. Heather Dillon is an Associate Professor in Mechanical Engineering at the University of Portland. She recently served as the Fulbright Canada Research Chair in STEM Education. Her research team is working on energy efficiency, renewable energy, fundamental heat transfer, and engineering education. Before joining the university, Heather Dillon worked for the Pacific Northwest National Laboratory (PNNL) as a senior

Conference Session

Computing and Information Technology Division Technical Session 7

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Stephen Michael MacNeil, University of California, San Diego; Mohsen M. Dorodchi, University of North Carolina at Charlotte; Erfan Al-Hossami, University of North Carolina at Charlotte; Aileen Benedict, University of North Carolina at Charlotte; Devansh Desai, University of North Carolina at Charlotte; Mohammad Javad Mahzoon, Core Compete Inc.

Tagged Divisions

Computing and Information Technology

futurework.BackgroundRepresenting the curriculum visually helps to communicate the structure, content, and sequenceof the material. Ideally, this process ensures that competencies are sequenced correctly, thatstudents have the freedom to create their own specializations, and that the amount of challenge isspread across the curriculum so that students aren’t overwhelmed in one semester andunder-challenged the next semester. These representations are often based on the curriculumdesigner’s best estimates or based on an existing curriculum. These heuristics do not alwayscorrespond to students’ actual pathways through the curriculum.By plotting students’ temporal pathways through the curriculum, it is possible to see where in thecurriculum students are struggling most, to

Conference Session

Computing and Information Technology Division Technical Session 6

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Vigyan Jackson Chandra, Eastern Kentucky University

Tagged Topics

Diversity

Tagged Divisions

Computing and Information Technology

Paper ID #29528Drawn together: Integrating words with visuals while annotatingtextbooks and articles for strengthening competencies in computernetworking technologyDr. Vigyan Jackson Chandra, Eastern Kentucky University Vigyan (Vigs) J. Chandra, Ph.D., serves as professor and coordinator of the Cyber Systems Technology related programs offered within the Department of Applied Engineering and Technology (AET) at Eastern Kentucky University. He received his master’s and doctoral degrees from the University of Kentucky in Electrical Engineering, and holds certifications in several computer/networking areas. He teaches courses

Conference Session

2-Year College Division: Workforce Pathways and ATE

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Pallavi Ramakanth Kowligi, Florida State University; Priyanka Prajapati, Florida State University; Faye R Jones, Florida State University; Marcia A. Mardis, Florida A&M University/Florida State University

Tagged Topics

Diversity

Tagged Divisions

Two-Year College

also employability skills such ascommunication, critical thinking, advanced digital skills, and problem solving are alsocontributing to an AM workforce skills gaps [7]. We assessed the alignment between the Florida Department of Education’s (FLDOE)Career and Technical Education (CTE) Advanced Manufacturing Curriculum Framework[hereafter AM Framework] and employer needs as expressed in the Department of Labor’s(DOL) AM Competency Model [hereafter AM Competency Model]. We used a computationalapproach to comparative document analysis to gain insight into these research questions: 1) How do the topics in AM Curriculum Framework and the AM Competency Model compare? 2) What are the differences between competencies in FLDOE’s AM

Collection

2017 Gulf Southwest Section Conference

Authors

Jun-Ing Ker

completelymissing in the current curriculum.In light of this weakness in our curriculum, this study aimed at providing an innovative way forindustrial engineering juniors to apply the process improvement skills learned in INEN 401 tohelp improve the quality of centrifuge pumps they fabricated in ENGR 120 Engineering ProblemSolving I. ENGR 120 is one of the three fundamental freshman engineering courses in LouisianaTech’s Integrated Engineering Freshmen Curriculum “Living with the Lab”. All freshmenengineering students are required to take these three fundamental engineering courses in theirfirst year of study. These include students majoring in biomedical engineering, chemicalengineering, civil engineering, cyber engineering, electrical engineering

Conference Session

Promoting Technical Communication Skills

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Kristine Horvat, University of New Haven; Judy Randi, University of New Haven

Tagged Divisions

Liberal Education/Engineering & Society

Paper ID #29097A Partnership Model for Integrating Technical Communication Habitsthroughout Undergraduate Engineering CoursesDr. Kristine Horvat, University of New Haven Dr. Kristine Horvat earned a Bachelor’s degree in Chemical and Molecular Engineering and a Masters & PhD in Materials Science and Engineering from Stony Brook University. While in graduate school, she performed research at Brookhaven National Laboratory to investigate gas hydrates as an alternative energy source. Currently, Dr. Horvat is an Assistant Professor of Chemical Engineering at the University of New Haven, where she teaches laboratory

Conference Session

Best in 5 Minutes: Demonstrating Interactive Teaching Activities

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Benjamin Michael Wallen P.E., United States Military Academy; Michael A. Butkus, United States Military Academy; Nathaniel P. Sheehan, United States Military Academy; Andrew Ng, United States Military Academy; Andrew Ross Pfluger, United States Military Academy

Tagged Divisions

Civil Engineering, Environmental Engineering

regardingstudents’ abilities to retain information and the efficacy of modified teaching techniques forincreased retention of material. The in-class demonstration was incorporated into the second lesson of a 40-lesson coursein 2017. Evaluation of performance on specific mass balance questions on the first exam of thesemester and final exam of the semester occurred starting in 2018 with performance shown inFigure 5. The effective integration of the in-class demonstration increased each year throughincreased instructor familiarity and deliberate rehearsals. As the mass balance demonstrationwas incorporated for a second year in 2018 and further improved in 2019, the test performanceon the mass balance questions during the first exam increased from an

Conference Session

Software Engineering Division Technical Session 2

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Peter J. Clarke, Florida International University; Mandayam Thirunarayanan, Florida International University; Sai Chaithra Allala, Florida International University; Juan Pablo Sotomayor, Florida International University; Monique S. Ross, Florida International University

Tagged Divisions

Software Engineering Division

Paper ID #29819Experiences of Integrating Learning and Engagement Strategies (LESs)into Software Engineering CoursesDr. Peter J Clarke, Florida International University Peter J. Clarke received his B.Sc. degree in Computer Science and Mathematics from the University of the West Indies (Cave Hill) in 1987, M.S. degree from SUNY Binghamton University in 1996 and Ph.D. in Computer Science from Clemson University in 2003. His research interests are in the areas of software testing, software metrics, model-driven software development, domain-specific modeling languages, and computer science education. He is currently an

Conference Session

Mechanical Engineering Technical Session: Mechatronics & Simulation

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Xiaobin Le P.E., Wentworth Institute of Technology; Anthony William Duva P.E., Wentworth Institute of Technology

Tagged Divisions

Mechanical Engineering

Courses,” 2001 ASEE Annual Conference and Exposition, June 16-19, Albuquerque, New Mexico.[4] Zecher, J., “Teaching Finite Element Analysis In An Met Program,” 2002 ASEE Annual Conference and Exposition, June 16-29, Montreal, Canada.[5] P. Chaphalkar, and D. Blekhman, “Introducing Finite Element Analysis In The First Course Of Statics And Solid Mechanics” ASEE 2007 Annual Conference, June 24-27, Honolulu, Hawaii.[6] Papadopoulos, J. M., Papadopoulos, C., and Prantil, V. C., "Philosophy of Integrating FEA Practice Throughout the Undergraduate CE/ME Curriculum," 2011 ASEE Annual Conference and Exposition, June 26- 29, Vancouver, BC, 2011.[7] Le, X., Duva, A. W., and Jackson, M., “The Balance of Theory, Simulation, and Projects for

Conference Session

NSF Grantees: Student Thought

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Erika A. Mosyjowski, University of Michigan; Javiera Espinoza von Bischhoffshausen, University of Michigan; Lisa R. Lattuca, University of Michigan; Shanna R. Daly, University of Michigan

Tagged Topics

Diversity, NSF Grantees Poster Session

education, her research interests include engineering education, particularly as related to systems thinking, organizational cultures, professional identity devel- opment, and supporting the success and ideas of underrepresented students within engineering.Mrs. Javiera Espinoza von Bischhoffshausen, University of Michigan Javiera Espinoza von Bischhoffshausen is a Master’s student in the Center for the Study of Higher and Postsecondary Education at the University of Michigan. She has a B.S. in Industrial Engineering from the Pontifical Catholic University of Valparaiso (PUCV), Chile (2012). Before pursuing her M.A. in Higher Education, Javiera had an appointment at the College of Engineering at PUCV in the engineering

Collection

2020 ASEE North Midwest Section Annual Conference

Authors

Shan Jiang, Iowa State University; Ann M Gansemer-Topf, Iowa State University; Nigel Forest Reuel, Iowa State University of Science and Technology; Gül E. Kremer, Iowa State University of Science and Technology; Qing Li, Iowa State University; Rebecca Mort, Iowa State University

Paper ID #32158A Community of Practice Approach to Integrating Professional SkillsTraining with Graduate Thesis ResearchProf. Shan Jiang, Iowa State University Dr. Shan Jiang is an Assistant Professor in the Materials Science and Engineering department at Iowa State University. He obtained his Ph.D. from the University of Illinois at Urbana-Champaign, working with Professor Steve Granick on Janus particles. After graduation, he studied drug delivery at MIT Langer lab as a postdoc. He then worked at the Dow Chemical Company Coating Materials as a research scien- tist. He was the Dow Certified Green Belt Project Leader and

Conference Session

ENT Division Technical Session: EM Across the Curriculum II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Andrea T. Kwaczala, Western New England University

Tagged Topics

Diversity

Tagged Divisions

Entrepreneurship & Engineering Innovation

] M. Habibi and E. Diep, "Developing an integrated motion capture and video recording," in Preceedings: American Society for Engineering Education, Atlanta, GA, 2013.[8] S. Freeman, S. L. Eddy, M. McDonough, M. K. Smith, N. Okoroafor, H. Jordt and M. P. Wenderoth, "Active learning increases student performance in science, engineering, and mathematics," PNAS, vol. 111, no. 23, 2013.[9] R. R. Hake, "Interactive-engagement versus traditional methods: A six-thousand-student survey of mechanics test data for introductory physics courses," American Journal of Physics, vol. 66, no. 64, 1998.[10] L. Deslauriers, L. S. McCarty, K. Miller, K. Callaghan and G. Kestin, "Measuring actual learning versus feeling of learning in