Conference Session

Experiential Learning Initiatives

Collection

2017 ASEE Annual Conference & Exposition

Authors

Megan Miller, Montana State University; Chung-Hsuan Benjamin Huang, Department of Electrical and Computer Engineering, Montana State University; Tariq Akmal, Washington State University; Ryan Anderson, Montana State University; Phillip Himmer, Montanta State University, ECE Dept., Montana Microfabrication Facility

Tagged Divisions

Multidisciplinary Engineering

: Micro-Electrical-Mechanical-Systems (MEMS) and Nanotechnology engineeringeducation platforms based on thin film engineering have broad applications across all disciplinesin science from semiconductor chip fabrication and accelerometers in unmanned aerial vehicles,to in-vivo medical instrumentation. Fabrication of real world thin film devices is an expensive,complex engineering effort that is not extensible to classroom laboratory environments. Havingnumerous cross disciplinary applications, fluid dynamics lends itself as a good model subject forlaboratory demonstration of MEMS; flow visualization makes for an appealing demo, fluid flowscales to the nano regime, and fabrication of a UV epoxy microfluidic channel can be designedin a way that

Conference Session

Multidisciplinary Course Efforts

Collection

2017 ASEE Annual Conference & Exposition

Authors

Kenan Baltaci, University of Wisconsin, Stout; Andy S. Peng, University of Wisconsin-Stout

Tagged Divisions

Multidisciplinary Engineering

teaching for electricalengineering students such as Digital Circuits, Analog Circuits, Electronics, and Introduction toCircuits. eIt is extremely challenging for any course instructor to cover such a diverse topic, engage withstudents, and provide hands-on laboratory experience at the same time. Like many universities,students evaluate the instructor at the end of the semester. Some of the student comments frommy first-time teaching were, “the course being fast pace,” “difficult to understand” and “toomuch math and very few labs.” They also mentioned that they were constantly being rushed tofinish the lab experiment on time. Overall, student feedback clearly showed that students did nothave a positive experience from the only electrical

Conference Session

Investigating Instructional Strategies

Collection

2017 ASEE Annual Conference & Exposition

Authors

Stephanie Luster-Teasley, North Carolina A&T State University; Sirena C. Hargrove-Leak, Elon University; Willietta Gibson, Bennett College

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

actual events or situations. This work explores the impact ofthe use of case studies in an environmental engineering laboratory, introductory engineeringcourse, introductory biology seminar course, and upper level biology course. Motivations forimplementing the cases include determining how case studies teaching impacts students’ abilityto carry out a scientific investigation (from hypothesis to data analysis to discussion of results)and if the results correlate to students’ learning style preferences. This work is part of acontinuing funded investigation of the use of case studies with the potential to contribute to thebody of knowledge related to the use of learning styles assessments in educational practiceacross a variety of disciplines. The

Conference Session

Merging Disciplines: Practice and Benefits

Collection

2017 ASEE Annual Conference & Exposition

Authors

Dennis A. Silage, Temple University; Keyanoush Sadeghipour, Temple University

Tagged Divisions

Multidisciplinary Engineering

for Electromechanical Engineering and Energy and PowerEngineering at Temple University. Only existing courses in EE and ME were integrated intothese plans of study for the BSE degree. The BSE program utilizes no new courses, requires nonew faculty and only administrative resources. Interdisciplinary design objectives were promotedand utilized in discipline undergraduate course laboratories and the capstone design project forthese students. The BSE program is uniquely administered by the College and not by aDepartment and has a Director and not a Chair.IntroductionThe Electrical Engineering (EE) discipline was once embellished with a significant number ofMechanical Engineering (ME) courses suitable for between-the-world-wars technical training

Conference Session

Experiential Learning Initiatives

Collection

2017 ASEE Annual Conference & Exposition

Authors

Jiahui Song, Wentworth Institute of Technology; Gloria Guohua Ma, Wentworth Institute of Technology

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

project at the end. This paper presents our study with differentlab delivery formats, including preparation, implementation, survey data, observations, andfindings.Course BackgroundIntroduction to Engineering in our institution is a 3 credit course. The course includes one 1-hourlecture, and two 2-hour labs/week. In the lecture, students develop the skills needed during theirstudy of engineering. Topics include task/time management, effective use of notes, engineeringresearch, oral and written communications, problem-solving techniques, ethics and professionalresponsibility and institute resources. In the laboratory, students work in teams to complete avariety of engineering tasks.Each class is set to 85 students maximum. The lecture is held at a

Conference Session

Multidisciplinary Course Efforts

Collection

2017 ASEE Annual Conference & Exposition

Authors

Gary P. Halada, Stony Brook University

Tagged Divisions

Multidisciplinary Engineering

tools such as the Student Assessment of Learning Gains survey.4 Videotaping and captioning – materials developed for the course have included interviews with experts in particular disasters, site visits (e.g. to the Navy Lakehurst Historical Society and the site of the Hindenburg disaster). Laboratory experiments and discussions also filmed (e.g. impact testing of alloys related to the Titanic disaster, electron microscopy of materials from Hindenburg recovered after the disaster). Lectures making use of VoiceThread (created by the instructor) for a number of asynchronous discussions of videos of engineering failures, news reports, videos of laboratory testing methods, and Powerpoint presentations to provide background information

Conference Session

Multidisciplinary Design Projects

Collection

2017 ASEE Annual Conference & Exposition

Authors

Alireza Yazdanshenas, University of Texas, Tyler ; Caleb Nathaniel Nehls, The University of Texas, Tyler; Chung-Hyun Goh, University of Texas, Tyler

Tagged Divisions

Multidisciplinary Engineering

, University of Texas, Tyler Dr. Goh has worked as a Mechanical Engineering faculty of The University of Texas at Tyler. Prior to joining UT Tyler, he worked in the Systems Realization Laboratory at the University of Oklahoma from 2012 to 2015. He worked for the Korean government after he received his Ph.D. degree at Georgia Institute of Technology in 2002. Dr. Goh is a member of ASEE, ASME, TMS, and the Institute of Integrated Healthcare in the East Texas. He also worked as a member of the board of directors in the materials and fracture group in the Korean Society of Mechanical Engineers. He has published a total two book chapters, 30 peer reviewed journal and proceeding papers as well as a co-authored textbook

Conference Session

Program-Level Assessments for Multidisciplinary Areas

Collection

2017 ASEE Annual Conference & Exposition

Authors

Umesh Adhikari, Michigan State University; Jade Mitchell, Michigan Sate University, Dept. of Biosystems and Agricultural Engineering; Julie Libarkin, Michigan State University; Mark H Weir, The Ohio State University (Eng. & Eng. Tech.)

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

. ii. Use a labeled arrow to represent processes.Figure 5. Question asked to the participants prior to the QMRAIII workshopThe pre-workshop diagram constructed by the participants served as the benchmark of theirknowledge on QMRA approach of risk management and their ability to communicate theirunderstanding in a succinct form.The QMRAIII workshopSixteen scientists/professors from 9 institutes from the USA and The Netherlands deliveredlectures as well as laboratory exercises that covered a wide aspect of microbial risk assessment.The lecture started with an introduction to the QMRA framework and included different aspectsof QMRA approach and components. The QMRA components discussed included hazardidentification; pathogen detection; fate and

Conference Session

Multidisciplinary Design Projects

Collection

2017 ASEE Annual Conference & Exposition

Authors

Cynthia H. Carlson PE, PhD, Merrimack College; Anne Pfitzner Gatling, Merrimack College; John G. Adams, Merrimack College; Jocelyn Fraga Muller, Merrimack College

Tagged Divisions

Multidisciplinary Engineering

required more sample collection and laboratory work. Both of these projects are real, localprojects identified by faculty during the summer of 2016.Both first and second projects took the entire semester. Students were expected to set and tomeet deadlines, and to seek information and resources as needed to complete the projects.Working with other courses gave the engineering students experience working with othershaving a variety of expertise, handling real world deadline setbacks outside of their own control,and managing resources and people. More detail on the conservation commission projectsfollows.Project: Dam Removal MonitoringHistorically, dams along the river were used to help harness power of the river for industrialmills. Removal of the

Conference Session

Edifying Engineering Education through Multidisciplinary Efforts

Collection

2017 ASEE Annual Conference & Exposition

Authors

Nael Barakat P.E., Texas A&M University, Kingsville; David Ramirez, Texas A&M University, Kingsville; Selahattin Ozcelik, Texas A&M University, Kingsville; John Austin McCoy, Texas A&M University, Kingsville; Aws Al-Shalash; Jong-Won Choi, Texas A&M University, Kingsville

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

in design exercises and experiences throughout their academicundergraduate careers, and provides student support in an innovative configuration of cascadedpeer-mentoring. In addition, the project incorporates engineering design experiences across theundergraduate curriculum with linkages to the university’s engineering innovation laboratory foraccess to industry projects. This contributes to increased student retention and persistence tograduation. CASCADE uses research proven practices to create a retention program based onintegrated curriculum, peer-mentoring, learning communities, and efforts that build innovation andcreativity into the engineering curriculum. The design efforts introduced by this project verticallyalign PBL that is fused

Conference Session

Engaging Faculty Across Disciplines, Colleges, and Institutions

Collection

2017 ASEE Annual Conference & Exposition

Authors

Sarah Donaher, Clemson University; Claire L. A. Dancz, Clemson University; Jeffery M. Plumblee II, Clemson University; Aaron S. Gordon, Clemson University; Khushikumari Patel, Clemson University

Tagged Divisions

Multidisciplinary Engineering

Challengecompetency, hands on project/research, involves completion of some experience in a researchsetting related to the scholar’s challenge. This could include laboratory work, collection of dataor surveys, investigations into potential solutions for their Grand Challenge, etc. The secondcompetency is interdisciplinary curriculum, wherein the student is encouraged to take coursesoutside of their specific discipline. Entrepreneurship, the third competency, aims to developstudent’s skills in working with investors, business plans, and market analyses that are just ascrucial as the engineering technical solution. The GCSP Global dimension, the fourthcompetency, aims to develop students’ global perspectives and assist in their understanding ofthe global and

Conference Session

Edifying Engineering Education through Multidisciplinary Efforts

Collection

2017 ASEE Annual Conference & Exposition

Authors

Behnaam Aazhang, Rice University; Randal T. Abler, Georgia Institute of Technology; Jan P. Allebach, Purdue University, West Lafayette (College of Engineering); L. Franklin Bost, Virginia Commonwealth University; Joseph R. Cavallaro, Rice University; Edwin K. P. Chong Ph.D., Colorado State University; Edward J. Coyle, Georgia Institute of Technology; Jocelyn B. S. Cullers, Boise State University; Sonya M. Dennis, Morehouse College; Yingfei Dong, University of Hawai'i at Mānoa; Prasad N. Enjeti, Texas A&M University; Afroditi V. Filippas, Virginia Commonwealth University; Jeffrey E. Froyd, Texas A&M University; David Garmire, University of Hawai'i at Mānoa; Jay George; Brian E. Gilchrist, University of Michigan; Gail S. Hohner, University of Michigan; William L. Hughes, Boise State University; Amos Johnson, Morehouse College; Charles Kim, Howard University; Hale Kim, INHA University; Robert H. Klenke, Virginia Commonwealth University; Magdalini Z. Lagoudas, Texas A&M University; Donna C. Llewellyn, Boise State University; Yung-Hsiang Lu, Purdue University, West Lafayette (College of Engineering); Kevin James Lybarger, University of Washington; Stephen Marshall P.E., University of Strathclyde; Subra Muralidharan, University of California, Davis; Aaron T. Ohta, University of Hawai'i at Mānoa; Francisco Raul Ortega, Florida International University; Eve A. Riskin, University of Washington; David M. Rizzo; Candace Renee Ryder, Colorado State Univerisity; Wayne A. Shiroma, University of Hawai'i at Mānoa; Thomas J. Siller, Colorado State University; J. Sonnenberg-Klein, Georgia Institute of Technology; Seyed Masoud Sadjadi, Florida International University; Scott Munro Strachan, University of Strathclyde; Mohsen Taheri, Florida International University; Gary L. Woods, Rice University Department of Electrical & Computer Engineering; Carla B. Zoltowski, Purdue University, West Lafayette (College of Engineering); Brian C. Fabien, University of Washington; Phiilp Johnson, University of Hawaii at Manoa; Robert Collins, Univesrity of Strathclyde at Georgia Tech; Paul Murray

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

Paper ID #19405Vertically Integrated Projects (VIP) Programs: Multidisciplinary Projectswith Homes in Any DisciplineProf. Behnaam Aazhang, Rice University Behnaam Aazhang received his B.S. (with highest honors), M.S., and Ph.D. degrees in Electrical and Computer Engineering from University of Illinois at Urbana-Champaign in 1981, 1983, and 1986, re- spectively. From 1981 to 1985, he was a Research Assistant in the Coordinated Science Laboratory, University of Illinois. In August 1985, he joined the faculty of Rice University, Houston, Texas, where he is now the J.S. Abercrombie Professor in the Department of Electrical

Conference Session

Multidisciplinary Design Projects

Collection

2017 ASEE Annual Conference & Exposition

Authors

David R. Mikesell, Ohio Northern University; John-David S. Yoder, Ohio Northern University; John K. Estell, Ohio Northern University; Ahmed Abdel-Mohti P.E., Ohio Northern University; Firas Hassan, Ohio Northern University

Tagged Divisions

Multidisciplinary Engineering

Mechanical Engineering (ONU 1997).Dr. John-David S. Yoder, Ohio Northern University John-David Yoder is Professor and Chair of the mechanical engineering at Ohio Northern University, Ada, OH. He has previously served as Proposal Engineer and Proposal Engineering Supervisor at Grob Sys- tem, Inc. and Software Engineer at Shaum Manufacturing, Inc. He has held a number of leadership and advisory positions in various entrepreneurial ventures. He is currently a KEEN (Kern Entrepreneurial Ed- ucation Network) Fellow, and has served as a Faculty Fellow at the Jet Propulsion Laboratory, Pasadena, CA and an Invited Professor at INRIA Rhone-Alpes, Monbonnot, France. Research interests include computer vision, mobile robotics

Conference Session

Multidisciplinary Course Efforts

Collection

2017 ASEE Annual Conference & Exposition

Authors

Jacquelyn Kay Nagel, James Madison University; Patrice M. Ludwig, James Madison University; Erica J. Lewis

Tagged Divisions

Multidisciplinary Engineering

facultymember from these disciplines who are actively involved in each weekly class session. Theweekly 3-hour class sessions are taught as a “laboratory” experience with students mainlyinvolved in active learning of fundamental principles for effective interdisciplinary collaboration.Students work in mixed teams toward a tangible solution to a community health challenge as partof the course project for the duration of the semester. The class is taught in a MakerSpace; anovel instructional space developed according to constructivist learning principles26 in whichparticipants co-learn and co-create27. The MakerSpace is an essential element of the course, as itfacilitates students’ problem solving through prototyping and testing a solution with

Conference Session

Engineering in Societal Context

Collection

2017 ASEE Annual Conference & Exposition

Authors

Daniel B. Oerther, Missouri University of Science & Technology

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

. in biological sciences and his B.S. in environ- mental health engineering from Northwestern University (1995), and he earned his M.S. (1998) in envi- ronmental health engineering and his Ph.D. (2002) from the University of Illinois, Urbana-Champaign. He has completed postgraduate coursework in Microbial Ecology from the Marine Biology Laboratory, in Public Health from The Johns Hopkins University, and Public Administration from Indiana University, Bloomington. Oerther is a licensed Professional Engineer (PE, Ohio), Board Certified in Environmental Engineering (BCEE) by the American Academy of Environmental Engineers and Scientist (AAEES), and registered as a Chartered Engineer (CEng) by the U.K. Engineering

Conference Session

Merging Disciplines: Practice and Benefits

Collection

2017 ASEE Annual Conference & Exposition

Authors

Ronald S. Harichandran, University of New Haven; Brian T. Kench, University of New Haven; Summer J. McGee, University of New Haven; Michael A. Collura P.E., University of New Haven; Jean Nocito-Gobel, University of New Haven; Charles David Skipton, University of New Haven

Tagged Divisions

Multidisciplinary Engineering

administering the “spiral” curriculum, the shared department hasimplemented two major college-wide curricular initiatives, several co-curricular activities, andfaculty training as described below. • With funding from the Davis Educational Foundation, an integrated approach to developing technical communication skills has been implemented across all engineering and computer science programs. The effort includes a 1-credit online course closely coupled with a freshman on-ground course, and e-learning modules integrated into third year laboratory courses and fourth year senior design courses. • With funding from the Kern Family Foundation, 10 e-learning modules targeted at developing an entrepreneurial mindset in

Conference Session

Merging Disciplines: Practice and Benefits

Collection

2017 ASEE Annual Conference & Exposition

Authors

Debarati Basu, Virginia Tech; Daniel S. Brogan, Virginia Polytechnic Institute and State University; Thomas G. Westfall, Virginia Tech; James Edward Taylor; Serena Lise Emanuel, Virginia Tech; Mathew Verghese, Virginia Tech; Nick Falls, Virginia Tech; Vinod K. Lohani, Virginia Polytechnic Institute and State University

Tagged Divisions

Multidisciplinary Engineering

building on this theory encourage studentsto engage in real world problems where they can reflect on their learning experiences andknowledge gained.42 By engaging in these learning activities, students can directly apply theirtheoretical knowledge and skills in a real-life context.43 These experiential learning activities caninclude field site work, laboratory experiences, indoor and outdoor projects and other researchwork.2 Thus, experiential learning is situated in a setting, which is relevant to the learner’s futureprofession that furthers helps in developing transferable skills. 40 This theory also emphasizes thatstudents’ experiences will be reflected in their future engagements. For example, if students areengaging in research work and