Displaying all 20 results
- Conference Session
- Multidisciplinary Course Innovation I
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Jeremy VanAntwerp, Calvin College; Richard Braatz, University of Illinois at Urbana-Champaign
- Tagged Divisions
- Multidisciplinary Engineering
AC 2008-1675: STATISTICAL PROCESS CONTROL LABORATORY EXERCISESFOR ALL ENGINEERING DISCIPLINESJeremy VanAntwerp, Calvin CollegeRichard Braatz, University of Illinois at Urbana-Champaign Page 13.1096.1© American Society for Engineering Education, 2008 Statistical Process Control Laboratory Exercises for all Engineering DisciplinesAbstr actDespite its importance in industry, statistical process control (SPC) is rarely taught inundergraduate controls courses. However, one or two lectures, coupled with the hands-on assignment in this paper, are sufficient to give a good introduction to the topic. Thispaper presents a case for why all engineers
- Conference Session
- Multidisciplinary Course Innovation I
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Robert Rabb; David Chang, United States Military Academy
- Tagged Divisions
- Multidisciplinary Engineering
portray it as a subject with value beyond aspecific niche. This integration of teaching will bring various engineering subjects together asmost presently developed systems are an integration of engineering such as a camera,automobile, space shuttle, and robot. In the course, students reinforce their discipline specificknowledge and integrate it with new knowledge and applications. This requires the faculty tounderstand and have some fluency in the other discipline. For example, each instructor conductsdemonstrations and laboratories for his sections, regardless if the demonstration or laboratoryexercise is electrical and the instructor is the mechanical engineer. Unlike some demonstrationsin other engineering classes, sometimes a specific
- Conference Session
- Multidisciplinary Course Innovation II
- Collection
- 2008 Annual Conference & Exposition
- Authors
- William Waldron, Grand Valley State University; Pramod Chaphalkar, Grand Valley State University; Shabbir Choudhuri, Grand Valley State University; John Farris, Grand Valley State University
- Tagged Divisions
- Multidisciplinary Engineering
AC 2008-2172: TEACHING DESIGN AND MANUFACTURE OF MECHANICALSYSTEMS - PART IIWilliam Waldron, Grand Valley State UniversityPramod Chaphalkar, Grand Valley State UniversityShabbir Choudhuri, Grand Valley State UniversityJohn Farris, Grand Valley State University Page 13.1156.1© American Society for Engineering Education, 2008 Teaching design and manufacture of mechanical systems using multidisciplinary teams-Part IIIntroductionA lot of progress has been made in recent years in improving engineering education, e.g.,emphasizing communication skills, working in teams, integration of computer-aided engineering(CAE), and capstone/senior design projects
- Conference Session
- Multidisciplinary Design Constituents
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Daniel Walsh, California Polytechnic State University; Robert Crockett, California Polytechnic State University; Zahed Sheikholeslami, California Polytechnic State University
- Tagged Divisions
- Multidisciplinary Engineering
research and by provide appropriateinfrastructure for faculty, including adequate computing/information systems and technicalsupport, and it enables relationships with industry in harmony with the strategic plan.HistoryThe college has a long history of using a learn-by-doing approach to engineering education.Indeed, it is embodied in the motto of the university “Discere Faciendo”, to learn by doing.Through this pedagogical approach, understanding theory is facilitated and enhanced bydemonstrating its application to the real world situations. This learning and teaching paradigmhas allowed the colleges graduates to be more productive ab initio in their professional careersthan their counterparts with a less rigorous laboratory and project based
- Conference Session
- Multidisciplinary Curriculum Innovation
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Ronald Kander, James Madison University
- Tagged Divisions
- Multidisciplinary Engineering
AC 2008-416: BUILDING A NEW KIND OF ENGINEERING DEGREE AT JAMESMADISON UNIVERSITYRonald Kander, James Madison University Dr. Ronald Kander is Director of the School of Engineering at James Madison University (JMU), where he teaches and does research in the area of polymer processing, manufacturability, and rapid prototyping/tooling technologies. He received a BS in Chemical Engineering from Carnegie-Mellon University in 1980, and a PhD in Chemical Engineering from the University of Delaware in 1987. Before becoming Director of the School of Engineering at JMU, Dr. Kander was Department Head of Integrated Science and Technology, and before that was a faculty member in the
- Conference Session
- Research in Multidisciplinary Education
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Carol Barry, University of Massachusetts-Lowell; Jacqueline Isaacs, Northeastern University
- Tagged Divisions
- Multidisciplinary Engineering
of an REU Summer ProgramAbstractAn NSF-funded Center, a three-university partnership with research focused onnanomanufacturing, has held a Summer Research Experiences for Undergraduates (REU)Program for undergraduate students over the past three years. Over 70 students have participatedin the program, in which each student is guided in a project to learn more about research relatedto nanomanufacturing. In our laboratories, students with diverse technical backgrounds gainskills in electron and atomic force microscopy; chemical synthesis; MEMS and NEMSfabrication; dip pen nanolithography; template-guided assembly and transfer of polymers andnanoparticles; high rate polymer processing; assessing the impact of nanoparticles on theenvironment
- Conference Session
- Research in Multidisciplinary Education
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Gary Halada, State University of New York at Stony Brook; Mary Frame, State University of New York at Stony Brook; Chad Korach, State University of New York at Stony Brook; David Ferguson, State University of New York-Stony Brook
- Tagged Divisions
- Multidisciplinary Engineering
experience as a possiblechoice for a required technical elective provided a range of research experiences which would bedifficult to achieve through a lecture or a laboratory course. c. Other programsModels for integration of nanotechnology education into the undergraduate curriculum havebeen discussed by a number of engineering educators over the past decade, and all haveemphasized the need for a multi-disciplinary, active learning and problem based approach.6Uddin and Chowdhury specifically concluded that development of a broad-based introductorycourse at the freshman/sophomore level, which includes general concepts and societal/ethicalissues, is essential.7 They also identified a capstone, design-oriented course as critical todevelopment of
- Conference Session
- Multidisciplinary Curriculum Innovation
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Michael Ciaraldi, Worcester Polytechnic Institute; David Cyganski, Worcester Polytechnic Institute; Michael Gennert, Worcester Polytechnic Institute; Michael Demetriou; Fred Looft; William Michalson, Worcester Polytechnic Institute; Bradley Miller, Worcester Polytechnic Institute; Eben Cobb, Worcester Polytechnic Institute; Lance Schachterle, Worcester Polytechnic Institute; Kenneth Stafford, Worcester Polytechnic Institute; Yiming Rong, Worcester Polytechnic Institute; Gretar Tryggvason, Worcester Polytechnic Institute; James Van de Ven, Worcester Polytechnic Institute
- Tagged Divisions
- Multidisciplinary Engineering
integration, electric and pneumatic actuators, power transmission, materials and static force analysis, controls and programmable embedded computer systems, system integration and robotic applications. Laboratory sessions consist of hands-on exercises and team projects where students design and build mobile robots. RBE 2001 UNIFIED ROBOTICS I First of a four-course sequence introducing foundational theory and practice of robotics engineering from the fields of computer science, electrical engineering and mechanical engineering. The focus of this course is the effective conversion of electrical power to mechanical power, and power transmission for purposes of locomotion, and of payload
- Conference Session
- Multidisciplinary Curriculum Innovation
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Richard Ruhala, University of Southern Indiana; Laura Ruhala, University of Southern Indiana; Eric Sprouls, University of Southern Indiana
- Tagged Divisions
- Multidisciplinary Engineering
, and has developed and taught many of the freshmen engineering courses, including ENGR 107 (Intro to Engineering) and ENGR 108 (Intro to Design). Other courses she is teaching are Dynamics, Dynamics of Machinery, and Engineering Materials. She is a member of ASEE and is developing a biomechanics laboratory as a center for research in bone and joint care.Eric Sprouls, University of Southern Indiana Eric Sprouls has been the Chair of the Department of Engineering at the University of Southern Indiana (USI) since 2002, where he has been teaching engineering technology and engineering courses since 1977. He holds a MS in Civil Engineering from the University of Illinois. Prior to coming
- Conference Session
- Multidisciplinary Course Innovation II
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Yusuf Mehta, Rowan University; William Riddell, Rowan University
- Tagged Divisions
- Multidisciplinary Engineering
- F INBIBLIOGRAPHICAL INFORMATION1. Gallow, De, “What is Problem Based Learning?” Instructional Resource Center, The William and Flora HewlettGrant.” http://www.pbl.uci.edu/whatispbl.html, 2006.2. Scardamalia, M., and Bereiter C. “Student communities for the advancement of knowledge,” Communicationsof the ACM Volume 39 No. 4 pp. 36 – 37, 19963. Mehta, Y. and Najafi, F “Teaching Methodology of Flexible Pavement Materials and Pavement Systems,”Journal of SMET Education, 2003a.4. Mehta, Y. A, Orlins, J. and Lubelski, D. “Innovative Teaching Methods for Surveying and EngineeringGraphics,” Proceedings of Mi-Atlantic Conference, Kean University, NJ 2003b.5. Mehta, Y. A. “Innovative Techniques To Teach Civil Engineering Materials Laboratory
- Conference Session
- Research in Multidisciplinary Education
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Chris Bachmann, James Madison University; Jeffrey Tang, James Madison University; Carl Puffenbarger, James Madison University; mike kauffman, James Madison University
- Tagged Divisions
- Multidisciplinary Engineering
traditional segmentation of scientific and technological programs, ___organizes its curriculum around problem areas in strategic sectors, not academic disciplines.Instruction often takes place through teaching teams, and most courses target technological topicareas, such as environmental issues, energy economics and policy, and biotechnology in industryand agriculture. More traditionally organized programs might find the transition to an AFV-typeprogram more challenging, given that alternative fuels don’t fall neatly into any single academicdiscipline. Even so, most engineering programs that feature practical work experience shouldprepare students adequately to handle the complexities of shop and laboratory work in alternativefuels.A third advantage
- Conference Session
- Experiential and Service Learning
- Collection
- 2008 Annual Conference & Exposition
- Authors
- James Ejiwale, Jackson State University; Della Posey, Jackson State University
- Tagged Divisions
- Multidisciplinary Engineering
educators to understandthe importance, management and the potential benefits of this framework. In addition, a sense ofcollaboration between the educators and the organization where the service is to be rendered isrequired to enable the success of this frame work.What is service learning (SL)?McPherson7 (2005) asserted that “Service learning is a method of teaching through whichstudents apply their academic skills and knowledge to address real-life needs in their owncommunities.” Bradford² (2005) defined service learning as an educational method by whichparticipants learn and develop through active participation in service that is conducted in andmeets the needs of a community. Eyler & Giles4 (1999) highlighted the importance of servicelearning
- Conference Session
- Multidisciplinary Course Innovation II
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Andrew Willis, University of North Carolina at Charlotte; James Conrad, University of North Carolina at Charlotte
- Tagged Divisions
- Multidisciplinary Engineering
models to pattern recognition, computer vision, and image processing. The first section introduces physical mathematical models which, in the second section of the course, are re-visited to allow for model-based design.In part (1), a new tact is taken for teaching the historical development of mathematics and physicsthat shapes the scientific view of the world today. Lectures seek to emphasize the rationale behindscientific thought through the variety of personalities that have defined it best characterized by thephrase : All science was new at some point. Specific classical topics include celestial mechanicsand thermodynamics which are introduced using excerpts from original works of the scientiststhat defined and revolutionized our
- Conference Session
- Multidisciplinary and Liberal Education
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Matthew Heun, Calvin College; Steven VanderLeest, Calvin College
- Tagged Divisions
- Multidisciplinary Engineering
AC 2008-2264: WHY A LIBERAL AND MULTIDISCIPLINARY EDUCATION ISNEEDED TO SOLVE THE ENERGY CRISISMatthew Heun, Calvin College Matthew K. Heun received his Ph.D. in Mechanical and Industrial Engineering from the University of Illinois at Urbana-Champaign. He was a staff engineer at the Jet Propulsion Laboratory in Pasadena, California and a Senior Engineer at Global Aerospace Corporation in Altadena, California before joining the Engineering Department at Calvin College in Grand Rapids, Michigan.Steven VanderLeest, Calvin College Steven H. VanderLeest is a Professor of Engineering and currently the Engineering Department Chair at Calvin College. He has an M.S.E.E. from Michigan Technological
- Conference Session
- Multidisciplinary Design Constituents
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Catherine Skokan, Colorado School of Mines; Michael Ewing, Colorado School of Mines; Barbara Moskal, Colorado School of Mines; Heidi Barker, Regis University
- Tagged Divisions
- Multidisciplinary Engineering
populartelevision show, NUMB3RS, to teach mathematical and scientific content to middleschool teachers and their students. At this point in time, the faculty members were onlyminimally familiar with the television program but found the idea to be intriguing.Further investigation into this show resulted in the recognition that others had alreadypursued this idea. In particular, Texas Instruments (TI) and the National Council ofTeachers of Mathematics (NCTM) have partnered with CBS Broadcasting, Inc. (CBS) tocreate educational modules associated with the show. CBS further had grantedpermission to the educational community to tape and show segments of NUMB3RS forclassroom use2. TI and NCTM had jointly developed lesson plans in conjunction with thetelevision
- Conference Session
- Experiential and Service Learning
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Odon Musimbi, Colorado School of Mines; Barbara Moskal, Colorado School of Mines; David Munoz, Colorado School of Mines
- Tagged Divisions
- Multidisciplinary Engineering
attitudes with respect to community service than did students and that only minordifferences existed based on participants’ age and gender.The current research builds from this prior effort. In Bauer et al., data were collected in theMultidisciplinary Engineering Laboratory, EGGN250, a sophomore level course in the fall of2004. This course was selected because it was required of all students and it preceded the courserequirements within the Humanitarian Engineering minor. In other words, the existence of theminor and the courses associated with that minor would not yet have impacted the students’attitudes. Using the same instrument, data was collected in the spring of 2007 in a senior levelcourse, a time period when most of the original student
- Conference Session
- Experiential and Service Learning
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Jim Chamberlain, Clemson University
- Tagged Divisions
- Multidisciplinary Engineering
iterative 3-way dialogue between the large group (10-15 students), themodule design group (2-4 students), and a recognized expert. The process encouragesdeep learning as students actively engage in creative conceptualizing, teaching each otherfrom general engineering principles and from their own disciplines, and interaction with aprofessional. Even though only a subset of the students will travel to the host country, allof the students on the project team have a sense of being involved with the siteassessment planning and are invested in the project from the point of view of their chosendiscipline. The IPD adventure is one that gives the student an actual engineeringexperience while engaging his/her passion for the social good
- Conference Session
- Multidisciplinary Teams
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Denine Northrup, Western New England College; Steven Northrup, Western New England College
- Tagged Divisions
- Multidisciplinary Engineering
-disciplinary teams”1. Western New England College has a long history of incorporatingengineering design into laboratory and course work. Additionally, interdisciplinary team effortsare initiated in the freshman year and continue for all four years.2,3 This paper describes theassessment instrument used in a senior-level interdisciplinary course that students take during thefall semester. The design project brings together students from mechanical, electrical, andcomputer engineering in teams typically consisting of 4-5 members. During the most recentdelivery of the course, due to a limited number of platforms and a larger senior class, the teamsconsisted of 7-8 students.To achieve a good level of interdisciplinary teamwork, educators need to motivate
- Conference Session
- Sustainability and Environmental Issues
- Collection
- 2008 Annual Conference & Exposition
- Authors
- P. Paxton Marshall, University of Virginia; Farhad Omar, University of Virginia; Alexander Hydrogen Martin, University of Virginia; James Durand, University of Virginia
- Tagged Divisions
- Multidisciplinary Engineering
, sustainable practices, art & literature, and history & geography.They will also gain knowledge about energy sustainability through alternative sources ofenergy provided by photovoltaic solar panels, wind turbines, and solar thermal spaceheating for the classroom produced by an evacuated tube heating system. A monitoringsystem with a large display will provide feedback on energy generation and consumptiononboard the Learning BargeTM to collect accurate data on the performance of the solarand wind systems, and to teach visitors about conservation and renewable energy.Multidisciplinary Collaboration The project is conducted through classes taught by Phoebe Crisman of the Schoolof Architecture and Paxton Marshall of the School of
- Conference Session
- Multidisciplinary Capstone Design Projects
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Yanfei Liu, Indiana University Purdue University, Fort Wayne (Eng); Jiaxin Zhao, Indiana University-Purdue University-Fort Wayne
- Tagged Divisions
- Multidisciplinary Engineering
Zhao is an Assistant Professor of Mechanical Engineering at Indiana University-Purdue University Fort Wayne. He received his BS from the University of Science and Technology of China, his MS from the University of Missouri-Rolla, and his PhD from Purdue University-West Lafayette. His research and teaching interests are tribology, machine design, solid mechanics and numerical methods including finite elements and parallel computing. Page 13.784.1© American Society for Engineering Education, 2008 Interactive Sensor Package Unit – a Multidisciplinary Design