Conference Session

Innovative Instructional Strategies

Collection

2008 Annual Conference & Exposition

Authors

Sabina Jeschke, University of Stuttgart; Akiko Kato, Technische Universitaet Berlin; Olivier Pfeiffer, Technische Universitaet Berlin; Erhard Zorn, Technische Universitaet Berlin

Tagged Divisions

Mathematics

Natural Sciences" and director of the MuLF Center (Multimedia Center for "New Media in Education and Research") at Berlin University of Technology (TU Berlin). Starting in 2001, her Berlin group has been a driving force behind the development of multimedia technologies at the university, implementing multimedia educational elements in the education of undergraduate students, in particular for engineering students. In May 2007, Sabina Jeschke has taken over a full professorship for "Information Technology Services" at the University of Stuttgart and is also acting as scientific and executive director (CEO) of the "Center of Information Technologies" of the University of Stuttgart

Conference Session

Design: Content and Context

Collection

2008 Annual Conference & Exposition

Authors

Mieke Schuurman, Pennsylvania State University; Christine B. Masters, Pennsylvania State University; Peggy Van Meter, Pennsylvania State University; Gül Okudan, Pennsylvania State University

Tagged Divisions

Educational Research and Methods

education is evident in a key learning outcome criterion set by the AccreditationBoard for Engineering and Technology (ABET), which states that students are expected todemonstrate “the ability to design a system, component, or process to meet desired needs withinrealistic constraints such as economic, environmental, social, political, ethical, health and safety,manufacturability, and sustainability” 1. Most four year engineering programs include acornerstone design course in the first year which introduces students to the breadth ofengineering design topics. Students obtain more in-depth knowledge in their second and thirdyear, in particular related to engineering analysis. Although analysis is a relevant part of thedesign process, when asked to

Conference Session

Materials Education Perspectives

Collection

2008 Annual Conference & Exposition

Authors

Barry Dupen, Indiana University-Purdue University-Fort Wayne

Tagged Divisions

Materials

AC 2008-35: USING INTERNET SOURCES TO SOLVE MATERIALSHOMEWORK ASSIGNMENTSBarry Dupen, Indiana University-Purdue University-Fort Wayne Dr. Dupen worked for 9 years in the automotive industry as a metallurgist, materials engineer, and laboratory manager. For the past 5 years, he has taught Mechanical Engineering Technology at Indiana University Purdue University Fort Wayne (IPFW). His primary interests are in materials engineering, mechanics, contra dancing, and engineering technology education. Page 13.1342.1© American Society for Engineering Education, 2008 Using Internet Sources

Conference Session

Assessment

Collection

2008 Annual Conference & Exposition

Authors

Daniel Wittenborn, Purdue University; Michael Richey, The Boeing Company; Craig Miller, Purdue University

Tagged Divisions

Educational Research and Methods

AC 2008-2814: ASSESSMENT OF A BLENDED PRODUCT LIFECYCLEMANAGEMENT COURSE UTILIZING ONLINE AND FACE-TO-FACEDELIVERY MECHANISMSDaniel Wittenborn, Purdue University Daniel Wittenborn is doctoral student in the College of Technology at Purdue University. He received a B.S. in Industrial Technology from Southeast Missouri State University and an M.S. in Computer Graphics Technology from Purdue University. While at Purdue, he has received the Outstanding Graduate Student Teaching Award and Schroff Award. He was also named a recipient of the Bilsland Dissertation Fellowship in 2007. Currently, his research interests include engineering education related to computer-aided design, manufacturing, and

Conference Session

Novel Energy Applications in Education

Collection

2008 Annual Conference & Exposition

Authors

Christopher Schroeder, University of Toledo; Mohammad Elahinia, University of Toledo; Walter Olson, University of Toledo; Mark Schumack, University of Detroit Mercy

Tagged Divisions

Energy Conversion and Conservation

AC 2008-2497: THE DEVELOPMENT OF A HYDRAULIC HYBRID VEHICLELABORATORY: INTEGRATING EDUCATION AND RESEARCHChristopher Schroeder, University of Toledo Christopher C. Schroeder is a graduate mechanical engineering student at The University of Toledo. He is working with Dr. Mohammad Elahinia on a project to develop "Multipurpose Educational Modules to Teach Hybrid Vehicle Technologies". Specifically Christopher says I am "working with colleagues to make hydraulic hybrid vehicles more suitable for commercialization…. I am excited and thrilled to be part of a university and a project which have the potential to make big changes in the automotive industry."Mohammad Elahinia, University of Toledo

Conference Session

NSF Grantees Poster Session

Collection

2008 Annual Conference & Exposition

Authors

Ian Papautsky, University of Cincinnati; Cathy Maltbie, University of Cincinnati; David Eddington, University of Illinois at Chicago; Ali Asgar Bhagat, University of Cincinnati; Hugo Caicedo, University of Illinois at Chicago

AC 2008-1373: INTRODUCING MICROFLUIDICS THROUGH APROBLEM-BASED LABORATORY COURSEIan Papautsky, University of Cincinnati Dr. Ian Papautsky earned his Ph.D. in bioengineering from the University of Utah in 1999. He is currently a tenured Associate Professor of in the Department of Electrical and Computer Engineering at the University of Cincinnati. His research and teaching interests include application of microfluidics and nanotechnology to biology and medicine.Cathy Maltbie, University of Cincinnati Dr. Catherine Maltbie earned her B.S. in Chemical Engineering and Ed.D. in Educational Studies (cognitive and social aspects of instruction). She is a Research Associate at the Evaluation

Conference Session

Instrumentation and Controls Laboratories

Collection

2008 Annual Conference & Exposition

Authors

Philip Brach, University of the District of Columbia; Ahmet Zeytinci, University of the District of Columbia

Tagged Divisions

Division Experimentation & Lab-Oriented Studies

and Aerospace Technology at UDC. He is a Past President of DCSPE and is currently the Director of the Civil Engineering Program and the Chairman of the Professional Engineers in Higher Education (PEHE) of DCSPE. Over 30 years of teaching and engineering practice in Europe, Japan and the US. Page 13.1252.1© American Society for Engineering Education, 2008 THE PEDAGOGY OF THE SURVEYING LABORATORY Abstract Surveying and surveying laboratory (field work) fifty years ago were standard fair for most engineering programs in all disciplines. Today, in the 21st Century, surveying is no longer an

Conference Session

NSF Grantees Poster Session

Collection

2008 Annual Conference & Exposition

Authors

Mark Yeary, University of Oklahoma; Robert Palmer, University of Oklahoma; Kevin Kloesel, University of Oklahoma; Tian Yu, University of Oklahoma; Kent Johnson, University of Oklahoma; Mike Biggerstaff, University of Oklahoma; Phil Chilson, University of Oklahoma; Guifu Zhang, University of Oklahoma

improvementof undergraduate education [13, 14, 15, 16]. With this in mind, we now introduce the modelthat governs and sustains the teaching and research mission of our university laboratory.The synergistic interaction between teaching and research, their drivers and end-results isalso illustrated. These drivers can be classified into those of resource needs (e.g. qualifiedpersonnel) and technology related issues. Resource needs can be further classified intothree types – (1) design and application engineers, (2) radar system integrators and man- Page 13.89.6agers, and (3) research and development scientists. These needs are met by BS, MS, andPhD graduates

Conference Session

Curricular Developments in Energy Education

Collection

2008 Annual Conference & Exposition

Authors

Gunnar Tamm, United States Military Academy; Ozer Arnas, United States Military Academy; Daisie Boettner, United States Military Academy; Seth Norberg, United States Military Academy

Tagged Divisions

Energy Conversion and Conservation

alternative energy stewardship on the national and global stage.Perhaps not well known to the public, is that the U.S. military is taking action to reduce energyconsumption via widespread conservation programs, while at the same time supporting researchand development of alternative energy technologies. However, the most effective measure todeviate from the conventional energy path is to educate the future decision makers, the futuregeneral officers of the Army, of the growing energy crisis and of the available and developingalternative energy options.This paper discusses the evolving education of engineering students at the United States MilitaryAcademy to include a greater awareness of renewable and alternative energy. Similar to severalcivilian

Conference Session

NSF Grantees Poster Session

Collection

2008 Annual Conference & Exposition

Authors

Vladimir Genis, Drexel University; Michael Zagorski, Drexel University

AC 2008-409: REMOTE NONDESTRUCTIVE TESTING EDUCATIONALLABORATORYVladimir Genis, Drexel University Dr. Vladimir Genis, Associate Professor and Program Director of Applied Engineering Technology in the Goodwin College, Drexel University, taught and developed graduate and undergraduate courses in physics, electronics, nondestructive testing, biomedical engineering, and acoustics. His research interests include ultrasound wave propagation and scattering, ultrasound imaging, nondestructive testing, electronic instrumentation, piezoelectric transducers, and engineering education. He serves as a member of the Drexel’s Faculty Senate.Michael Zagorski, Drexel University Michael Zagorski has a

Collection

2008 Spring ASEE Middle Atlantic Section Conference

Authors

Carol Siri Johnson

The Evolution of Technical Communication at Lukens Steel, 1810-1925 Carol Siri Johnson New Jersey Institute of TechnologyAbstract: Complex technology necessitated increasing levels of literacy among workers and engineers in the late 19th and early 20th centuries. This paper analyzes the changes in technical communication in a single company, Lukens Steel, between the years 1810 and 1925. Until 1870, literacy was not necessary in the workplace; only the owners wrote letters and kept accounting records. By the end of the 19th century, quantitative literacy became increasingly important across the plant as foremen kept records

Collection

2008 ASEE Zone 1 Conference

Authors

Carol Siri Johnson

The Evolution of Technical Communication at Lukens Steel, 1810-1925 Carol Siri Johnson New Jersey Institute of TechnologyAbstract: Complex technology necessitated increasing levels of literacy among workers and engineers in the late 19th and early 20th centuries. This paper analyzes the changes in technical communication in a single company, Lukens Steel, between the years 1810 and 1925. Until 1870, literacy was not necessary in the workplace; only the owners wrote letters and kept accounting records. By the end of the 19th century, quantitative literacy became increasingly important across the plant as foremen kept records

Collection

2008 Spring ASEE Middle Atlantic Section Conference

Authors

R. Radharamanan; Ha Van Vo

mixing cup, and a spoon. The robot armshould be programmed to include all the necessary motions to complete the mixing process. The resultsobtained from the student team projects on the above three modules are also presented, analyzed, anddiscussed.1. IntroductionThe advancement of industrial applications of process technology, computers, and automation demandscontinuous improvement in the quality of engineering education both in classroom theory and in hands-onpractice in design, computer simulation, and manufacturing laboratories. There is a growing need forpreparing students both in theory and practice so that they are well prepared to meet the challenges of thejob market, especially in the manufacturing industries of the 21st century. A

Collection

2008 ASEE Zone 1 Conference

Authors

R. Radharamanan; Ha Van Vo

mixing cup, and a spoon. The robot armshould be programmed to include all the necessary motions to complete the mixing process. The resultsobtained from the student team projects on the above three modules are also presented, analyzed, anddiscussed.1. IntroductionThe advancement of industrial applications of process technology, computers, and automation demandscontinuous improvement in the quality of engineering education both in classroom theory and in hands-onpractice in design, computer simulation, and manufacturing laboratories. There is a growing need forpreparing students both in theory and practice so that they are well prepared to meet the challenges of thejob market, especially in the manufacturing industries of the 21st century. A

Collection

2008 Northeast Section Meeting

Authors

R. Radharamanan; Ha Van Vo

mixing cup, and a spoon. The robot armshould be programmed to include all the necessary motions to complete the mixing process. The resultsobtained from the student team projects on the above three modules are also presented, analyzed, anddiscussed.1. IntroductionThe advancement of industrial applications of process technology, computers, and automation demandscontinuous improvement in the quality of engineering education both in classroom theory and in hands-onpractice in design, computer simulation, and manufacturing laboratories. There is a growing need forpreparing students both in theory and practice so that they are well prepared to meet the challenges of thejob market, especially in the manufacturing industries of the 21st century. A

Conference Session

Instructional Methods and Tools in BME

Collection

2008 Annual Conference & Exposition

Authors

Chris Geiger, Florida Gulf Coast University; Robert O'Neill, Florida Gulf Coast University

Tagged Divisions

Biomedical

AC 2008-1124: UTILIZING THE BEST PRACTICES OF THE EXCEEDTEACHING METHODOLOGY IN A BIOENGINEERING CURRICULUM.Chris Geiger, Florida Gulf Coast University R. Christopher Geiger is an Assistant Professor in the Department of Bioengineering in the U.A. Whitaker School of Engineering at Florida Gulf Coast University. He received his M.S and Ph.D. degrees in Biomedical Engineering from Northwestern University in 1999 and 2003, respectively, and his B.S. in Chemical Engineering from Northwestern University in 1996.Robert O'Neill, Florida Gulf Coast University Robert J. O'Neill is Professor and Chair of the Department of Environmental and Civil Engineering in the U.A. Whitaker School of Engineering at

Collection

2008 Spring ASEE Middle Atlantic Section Conference

Authors

Linda Ann Riley; Charles Thomas

probability of these students choosing a STEM major incollege is low. This ultimately will affect the production of U.S. scientists and engineers needed to solveour future technological and research challenges. 1To place the K-12 mathematics and science scenario in perspective, when compared to foreign countries,the U.S. significantly lags most with respect to performance. Table 1 presents a compilation ofmathematics scores of 15 year olds enrolled in secondary education institutions in OEDC (Organizationfor Economic Cooperation and Development) countries. This international comparison of mathematicsperformance by 15 year olds indicates that the U.S. falls almost at the bottom of the comparator

Collection

2008 Northeast Section Meeting

Authors

Linda Ann Riley; Charles Thomas

probability of these students choosing a STEM major incollege is low. This ultimately will affect the production of U.S. scientists and engineers needed to solveour future technological and research challenges. 1To place the K-12 mathematics and science scenario in perspective, when compared to foreign countries,the U.S. significantly lags most with respect to performance. Table 1 presents a compilation ofmathematics scores of 15 year olds enrolled in secondary education institutions in OEDC (Organizationfor Economic Cooperation and Development) countries. This international comparison of mathematicsperformance by 15 year olds indicates that the U.S. falls almost at the bottom of the comparator

Collection

2008 ASEE Zone 1 Conference

Authors

Linda Ann Riley; Charles Thomas

probability of these students choosing a STEM major incollege is low. This ultimately will affect the production of U.S. scientists and engineers needed to solveour future technological and research challenges. 1To place the K-12 mathematics and science scenario in perspective, when compared to foreign countries,the U.S. significantly lags most with respect to performance. Table 1 presents a compilation ofmathematics scores of 15 year olds enrolled in secondary education institutions in OEDC (Organizationfor Economic Cooperation and Development) countries. This international comparison of mathematicsperformance by 15 year olds indicates that the U.S. falls almost at the bottom of the comparator

Conference Session

Professional Skills and the Workplace

Collection

2008 Annual Conference & Exposition

Authors

Betty Harper, Pennsylvania State University, University Park; Patrick Terenzini, Pennsylvania State University

Tagged Divisions

Educational Research and Methods

morescholarly activities, and engineering education is a case-in-point. The post-WWII and Sputnikeras saw a massive influx of federal support for research in higher education, increased hiring ofresearch-oriented faculty members, and curriculum revisions that reflected faculty members'interests. By 2000, engineering education looked more like that in a traditional science than in aprofession.3 Government, business, and professional societies pressed for engineering educationreforms in order to sustain America's technological and economic leadership. Consistent with Finkelstein et al.,1 one explanation for the failure of engineeringprograms to provide graduates with important professional skills is that most engineeringstudents are taught by

Conference Session

Our Future in Manufacturing

Collection

2008 Annual Conference & Exposition

Authors

Bradley Harriger, Purdue University; Mike Aikens, Butler County Community College; Mark French, Purdue University; Steve Shade, Purdue University

Tagged Divisions

Manufacturing

AC 2008-1280: USING GUITAR MANUFACTURING TO RECRUIT STUDENTSINTO STEM DISCIPLINESBradley Harriger, Purdue UniversityMark French, Purdue UniversityMike Aikens, Butler County Community CollegeSteve Shade, Purdue University Page 13.1339.1© American Society for Engineering Education, 2008 Using Guitar Manufacturing to Recruit Students into STEM DisciplinesAbstract The challenge to recruit students into manufacturing engineering technology degreeprograms continues to be competitive and requires creativity and innovation. Creating an interestin STEM related programs has become the new frontier for many colleges and universities acrossthe

Conference Session

CAD/CAM in Manufacturing Education

Collection

2008 Annual Conference & Exposition

Authors

Adrian Teo, Arizona State University; Scott Danielson, Arizona State University; Trian Georgeou, Arizona State University

Tagged Divisions

Manufacturing

AC 2008-1363: HIGH PERFORMANCE MACHINING: A PRACTICALAPPROACH TO HIGH-SPEED MACHININGAdrian Teo, Arizona State University Adrian Teo is the owner and operator of Function7 Engineering, an aftermarket automotive parts supply company. He is both a Arizona State University staff member in the University Technology Office and a graduate student in the Mechanical and Manufacturing Engineering Technology Department, with an emphasis is CNC machining.Scott Danielson, Arizona State University Scott Danielson is the Department Chair of the Mechanical and Manufacturing Engineering Technology Department at Arizona State University and has served in this capacity since 1999. He is active in ASEE and

Collection

2008 ASEE Midwest Section Conference

Authors

Josh Coffman; Sachin S. Terdalkar; Joseph J. Rencis; Ashland O. Brown

and computer technology matured, FEM was introduced at theundergraduate level in engineering and engineering technology programs, even in some two-yearengineering technology programs. FEM is today primarily offered as an elective undergraduatecourse in mechanical, civil, and aeronautical engineering programs.8 Fatigue analysis that once was carried out by hand and/or in-house computer programs isnow done using commercial FEM software. Fatigue modules have recently been integrated intocommercial FEM codes that include ABAQUS®9, ALGOR®10, ANSYS®11, COMSOL®12,COSMOSWorks®13, and Pro/ENGINEER®.14 The usage of FEM in fatigue analysis does not gowithout limitations. An absence of actual loading data throughout the life of the components willnot

Conference Session

Graduate Student Experiences

Collection

2008 Annual Conference & Exposition

Authors

Rajesh Bachu, University of Bridgeport; Deepak S. Deepawale, University of Bridgeport; Buket Barkana, University of Bridgeport; Lawrence Hmurcik, University of Bridgeport

Tagged Divisions

Graduate Studies

240 case entries, including 14 appearances in Court and Legal Depositions. Dr. Hmurcik's interests have changed over the years: starting in Solar Cell technology in 1977, Dr. hmurcik is currently pursuing work in Medical Electronics and Electric Safety. Page 13.176.1© American Society for Engineering Education, 2008 An Evaluation of Indian International Graduate Students’ Expectations and ExperiencesAbstractThis research analyzes the expectations and experiences of international graduatestudents who study at American universities. More specifically, the aim of this study is tofind the

Collection

2008 Spring ASEE Middle Atlantic Section Conference

Authors

Ryan A. Ebel; Donald S. Abbott-McCune; David Chang

mechatronics curriculum developmentefforts: an undergraduate concentration in mechatronics, Frontiers in Education, 2005. FIE '05. Proceedings 35thAnnual Conference 19-22 Oct. 2005 Page(s):F3F - 7-8[8] V. Genis, W. Rosen, R. Chiou, W. Danley, J. Milbrandt, G. Marekova, S. Racz,T. Kitchener, and B. LaVay, Laboratory- and Project-Based Courses in the Engineering Technology Curriculum,Philadelphia, PA Fall proceeding of ASEE Mid Hudson Section 2007[9] Murray, W.R.; Garbini, J.L.; Mechatronics capstone design projects at the University of Washington, AdvancedIntelligent Mechatronics, 1999. Proceedings. 1999 IEEE/ASME International Conference on 19-23 Sept. 1999Page(s):598 - 604[10] Weiner , Tim, New Model Army Soldier Rolls Closer to Battle, NY Times

Collection

2008 ASEE Zone 1 Conference

Authors

Ryan A. Ebel; Donald S. Abbott-McCune; David Chang

mechatronics curriculum developmentefforts: an undergraduate concentration in mechatronics, Frontiers in Education, 2005. FIE '05. Proceedings 35thAnnual Conference 19-22 Oct. 2005 Page(s):F3F - 7-8[8] V. Genis, W. Rosen, R. Chiou, W. Danley, J. Milbrandt, G. Marekova, S. Racz,T. Kitchener, and B. LaVay, Laboratory- and Project-Based Courses in the Engineering Technology Curriculum,Philadelphia, PA Fall proceeding of ASEE Mid Hudson Section 2007[9] Murray, W.R.; Garbini, J.L.; Mechatronics capstone design projects at the University of Washington, AdvancedIntelligent Mechatronics, 1999. Proceedings. 1999 IEEE/ASME International Conference on 19-23 Sept. 1999Page(s):598 - 604[10] Weiner , Tim, New Model Army Soldier Rolls Closer to Battle, NY Times

Conference Session

Curricular Issues in Computer-Oriented Programs

Collection

2008 Annual Conference & Exposition

Authors

Azzedine Lansari, Zayed University; Akram Al-Rawi, Zayed University; Abdallah Tubaishat, Zayed Univeristy; Faouzi Bouslama, Université Laval

Tagged Divisions

Information Systems

, UAE. He has worked at several academic institutions of which the last two were the University of Missouri-Columbia and Columbia College, MO. His teaching interests include programming languages, logic design, and computer architecture. His research interests include computer simulation, web-caching architecture, and curriculum design.Abdallah Tubaishat, Zayed Univeristy Dr. Abdallah Tubaishat received his PhD degree in Software Engineering from Illinois Institute of Technology. He is conducting research that spans two main areas, one is technical: software engineering and the other is non-technical: e-learning. He is conducting both types of research in parallel and has presented his work

Conference Session

Sustainable Energy Issues in Education

Collection

2008 Annual Conference & Exposition

Authors

Cortney Martin, Virginia Polytechnic Institute and State University; Barbara Bekken, Virginia Polytechnic Institute and State University; Sean McGinnis, Virginia Polytechnic Institute and State University

Tagged Divisions

Energy Conversion and Conservation

of vital learning outcomes and argue that these must be woven throughout everycurriculum rather than regarded as a separate, or less important, educational component.Domenico Grasso4 aptly describes the troubling bifurcation of liberal and technical education Page 13.1218.2and calls for a new definition of the well-educated engineer: With the ever receding horizons of technological limits, it is easy to see how engineering curricula can become increasingly dominated by technical courses. It is time to dismiss the hegemonic notion that the best engineering education is one that exposes students to the most technical

Collection

2008 Pacific Southwest Section Meeting

Authors

Elizabeth J. Brauer

WeBWorK Development in Electric Circuits Elizabeth J. Brauer Department of Electrical Engineering Northern Arizona University, Flagstaff, AZ liz.brauer@nau.eduAbstractWeBWorK is an internet-based homework system first developed for math courses but alsoutilized in science courses. Little development has been done with WeBWorK in engineeringcourses. In a similar vein, some publishers have developed computer-mediated homework toaccompany their textbooks but these tend to have limited capabilities. This paper presents workdone at Northern Arizona University to develop a collection of

Conference Session

Design in the ECE Curriculum

Collection

2008 Annual Conference & Exposition

Authors

Jin-Hwan Lee, University of Cincinnati; Ali Asgar Bhagat, University of Cincinnati; Karen Davis, University of Cincinnati; Ian Papautsky, University of Cincinnati

Tagged Divisions

Electrical and Computer

Undergraduate (REU) students through the summer termprior to continuing on to graduate school. The success of these research-oriented senior designprojects is encouraging and we propose extending this opportunity to motivate students enrolledin related programs such as biology, chemistry, and other engineering disciplines.I. IntroductionMicromachining or Micro Electro Mechanical Systems (MEMS) technologies are considered anenabling technology that has a revolutionary impact on many areas of science and engineering.1MEMS technologies are now being applied to health monitoring, diagnostics and therapeuticapplications, which are frequently referred to as Biomedical Microsystems (BioMEMS).BioMEMS research includes biological, biomedical, biochemical, and