Conference Session

Assessing Teaching and Learning

Collection

2002 Annual Conference

Authors

Donald Headley; Sanjiv Sarin

processes is a cornerstone ofEC 20001.Given the limitations of achievement tests in fulfilling outcomes assessment requirements, theassessment community has recommended several alternative approaches for assessing studentoutcomes. These include portfolios, capstone design project evaluations, student, alumni andemployer surveys, and placement data of graduates. Yet, written surveys administered to currentstudents are the most frequently used assessment instruments, due in part to two reasons – one,they are relatively inexpensive to conduct, and, two, a high response rate is almost guaranteed. Anatural question is whether these student self-assessments are valid substitutes for test questionscreated and scored by an instructor.This paper reports the

Conference Session

Manufacturing Systems Design

Collection

2003 Annual Conference

Authors

Devdas Shetty

graphical programming during the course, but this process isgradually built-in. A progressive exposure to create virtual instruments offer the best students theability to create their own virtual instruments, and develop capstone design projects. Theexperiences gained in teaching and research at the Korea university of Technology and Education(KUT), University of Hartford and Moscow State Technological University ‘STANKIN’ are usedin the development of case studies. Page 8.668.5CASE STUDIESCase Studies at KUTWeight Measurement System with Virtual InstrumentStrain gauges are used to measure the displacement -strain relationship of the aluminum beam. Inthis system, double strain

Collection

2001 Annual Conference

Authors

William Edward Howard; Joseph Musto

initiative, each new student was provided with aCompaq Armada 1750 notebook computer and a standard suite of software. Conventionalclassrooms were provided with network connections and projection equipment to facilitate theintegration of notebook computers into select classes. In conjunction with this program, a revisedMechanical Engineering curriculum was launched, designed to exploit the availability ofnotebook computing technology. The highlight of this curriculum revision is ComputerApplications in Engineering, a freshman-level Mechanical Engineering Department course Page 6.630.1 Proceedings of the 2001 American Society for Engineering

Collection

2001 Annual Conference

Authors

Ronald Miller; Ruth Streveler

4,19,20,21,23, 24,255,10,17 12 14 technical economic 3,8,9 7,11,13,18,22, 27,29 32 Posttest Results product Figure 3. Posttest Results of MDS Analysis for Senior Design TermsIn the pretest (Figure 2) four distinct clusters of terms were observed:1- A cluster containing all terms that pertained to the economic analysis of a project: capital cost (Term 1), cash flow analysis (Term 2), economic optimum

Conference Session

Trends in Mechanical Engineering I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Matthew Spenko, Illinois Institute of Technology; Jamal S. Yagoobi, Illinois Institute of Technology

Tagged Divisions

Mechanical Engineering

must be ableto promote prototyping and creativity. This suggestion was based on such spaces beingimplemented at many of the institutions represented by the workshop participants. A dedicatedspace helps develop a Confucian model of learning where students learn by doing. Anothersuggestion was to use this learning environment to teach reverse engineering techniques forunderclassmen as a way to understand how other engineers have solved specific designchallenges. One particular example used by the University of Notre Dame included havingsophomores reverse engineer projects from the previous year’s senior-level capstone designcourse.Case studies were suggested as a method to promote intellectual curiosity and passion.Participants noted the role of

Conference Session

NSF Grantees Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Muhsin Menekse, Arizona State University; Glenda Stump, Arizona State University; Stephen J. Krause, Arizona State University; Michelene T.H. Chi, Arizona State University

Tagged Topics

NSF Grantees

, capstone design, and introductory materials engineering. His research interests are evaluating conceptual knowledge, miscon- ceptions and their repair, and conceptual change. He has co-developed a Materials Concept Inventory for assessing conceptual knowledge of students in introductory materials engineering classes. He is cur- rently conducting research with NSF sponsored projects in the areas of: Modules to Promote Conceptual Change in an Introductory Materials Course, Tracking Student Learning Trajectories of Atomic Structure and Macroscopic Property Relationships, and Assessing the Effect of Learning Modes on Conceptual Change.Michelene T.H. Chi, Arizona State University Micki Chi is a Professor in the

Conference Session

Development of Manufacturing Engineering Laboratories I

Collection

2012 ASEE Annual Conference & Exposition

Authors

Arif Sirinterlikci, Robert Morris University

Tagged Divisions

Manufacturing

I/Obox simulator, and the other with the actual work-cell. Valuable demos also strengthened thelearning experience.In the near future, the author plans to incorporate the vibratory bowl feeders (under a secondwork-cell – where the students will actually wire the entire cell), and a state-of-the-art machinevision system (in place of an outdated one) into his laboratories. The work-cell will sort screwsdelivered by the feeder. Efforts for this new cell development have already begun. Additionalfuture projects may involve addition of DELMIA Robotics Virtual Simulation tool to this courseas well as the capstone project course (ENGR 4950 – Integrated Engineering Design) for seniors

Collection

2001 Annual Conference

Authors

Robert Erlandson

accessibledesign principles or issues.Table 1. Strategies for inclusion of AD material into various class categories. Category of Example Strategy class Dedicated Rehabilitation Engineering Dedicated content covering Human Factors accessibility and AD principles. Telecommunications and E&IT Design Capstone Design AD issues raised and considered as part of the design specifications. AD principles applied as appropriate. Engineering Any

Collection

1998 Annual Conference

Authors

Charles W. P. Finn; William E. Cole

to incorporate design projectswithin the technical classes: A group design project, with a final written report, requires the use(and hence learning) of all of these skills. A second opportunity to emphasize these skills is inlaboratory reports. It is easy to fall into the mode of providing detailed directions for eachlaboratory experiment and to require individual written reports from each student. However, byproviding only superficial directions and goals for the experiment, the students must developtheir problem solving skills (how to do the experiment). Secondly, by requiring group reports,the students will develop their teamwork skills. On the basis of this survey, the authors haveincorporated design projects into all their courses and

Conference Session

Computing and Information Technology Division (CIT) Technical Session 1

Collection

2024 ASEE Annual Conference & Exposition

Authors

Tarik Eltaeib, Farmingdale State College ; M. Nazrul Islam, State University of New York; Qinghai Gao

Tagged Divisions

Computing and Information Technology Division (CIT)

Application Administrator at a Mitsubishi Power Systems, where he built state-of-the-art Enterprise and Machine Learning Applications. Academic positions include Adjunct Professor at the University of Bridgeport, CT, and Assistant Professor – Computer Security where he is tenured at the School of Engineering Technology, Farmingdale State College - State University of New York. He has 6 years of higher education experience, and a total of 14 years. He has presented and published numerous conference papers, journal articles and contributed to a book chapter on Large-scale Evolutionary Optimization. He has excelled at going the extra mile, teaching not only his own classes but an additional Capstone projects, doing

Conference Session

Educational Research and Methods Potpourri II

Collection

2011 ASEE Annual Conference & Exposition

Authors

James E. Lewis, University of Louisville; Cathy Bays

Tagged Divisions

Educational Research and Methods

all require critical thinking skills. Critical thinking can be incorporatedinto engineering classes in a variety of ways including writing assignments, active learningstrategies, project-based design experiences, and course redesign. Clearly, accurately, andconsistently assessing critical thinking across engineering courses can be challenging.The J.B. Speed School of Engineering began revising core courses in the undergraduatecurriculum to align with goals and objectives of i2a and the ABET criteria. As a common coursefor all entering engineering students, Introduction to Engineering was the logical course tointroduce critical thinking to engineering students and to prepare them for the critical thinkingdemands they will experience in their

Conference Session

Innovations in Teaching Physics or Engineering Physics I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Adrian Ieta, Oswego State University College; Rachid Manseur, State University of New York, Oswego; Thomas E. Doyle P.Eng., McMaster University

Tagged Divisions

Engineering Physics & Physics

AC 2011-1477: DEVELOPMENT OF AN UNDERGRADUATE RESEARCHLABORATORYAdrian Ieta, Oswego State University College Adrian Ieta (M’99) received the B.Sc. degree in physics from the University of Timisoara, Timisoara, Romania, in 1984, the B.E.Sc. degree in electrical engineering from the ”Politehnica” University of Timisoara, Timisoara, in 1992, and the M.E.Sc. degree and the Ph.D. degree in electrical and computer engineering from The University of the Western Ontario, London, ON, Canada, in 1999 and 2004, re- spectively. He was with the Applied Electrostatics Research Centre and the Digital Electronics Research Group, The University of Western Ontario, where he worked on industrial projects and taught. He is

Collection

1999 Annual Conference

Authors

Timothy Anderson; Robert Serow; James Demery; Carl Zorowski; Catherine E. Brawner

be available. These methods allow us to probe into areasand tease out problems that may exist and may help to define a problem for future quantitativestudy. They also allow us to understand why projects succeed or fail in certain environments. Inthis paper we offer a model that uses qualitative assessment techniques to support the Checkstage of the PDCA model in a program with undergraduate engineering curriculum renewal as itsgoal. This 10-step process includes site visits, participant review, and an ongoing formalfeedback process about improvements that can be made based on the collected data. The modelis intended to provide a framework to others who may be in a position to evaluate a group ofprograms such as a coalition of institutions or

Conference Session

Communication - Needs and Methods

Collection

2010 Annual Conference & Exposition

Authors

Christine Nicometo, University of Wisconsin, Madison; Kevin Anderson, University of Wisconsin, Madison; Traci Nathans-Kelly, University of Wisconsin, Madison; Sandra Courter, University of Wisconsin-Madison; Thomas McGlamery, University of Wisconsin-Madison

Tagged Divisions

Liberal Education

a moreinterpersonal communication skill set in students. Indeed, as Trevelyan pointed out in his studyof communication practices of engineers in Australia, “assessment of communication inengineering education is misaligned with practice requirements”5. To better align educationalassessment of communication practices in the first place, educators need to know more abouthow this skill set is defined and practiced in engineering workplaces. This paper intends to helpshed light on that question through reporting on the ways that practicing engineers valued,defined, and practiced “communication skills”.Study Description and MethodsThis study is part of a larger project sponsored by the National Science Foundation whichexamines the alignment of

Conference Session

Computer Education Innovations I

Collection

2010 Annual Conference & Exposition

Authors

Cynthia Fry, Baylor University; Donald Gaitros, Baylor University

Tagged Divisions

Computers in Education

Senior Capstone projects available to all Computer Science majors.In partial fulfillment of the requirements of CSF 4302, all Fellows will present their thesis duringthe annual ECS Scholar’s Day, even if their work is not yet complete.The Fellow’s Research Advisor will direct the thesis. In addition, Fellows must invite a secondprofessor in that field as well as a third professor outside of that field to serve as readers. In thespring of the junior year, Scholars register for CSF 4v01 to be taken in the fall of the senior year.A detailed outline, the first chapter of the thesis, and a bibliography must be submitted to theresearch advisor and the CSF Director at the end of that semester. In the fall of the senior year,students register for CSF

Conference Session

Mechanical and Architectural Engineering Laboratories

Collection

2011 ASEE Annual Conference & Exposition

Authors

A. Simionescu, Texas A&M University, Corpus Christi; Mehrube Mehrubeoglu, Texas A&M University, Corpus Christi; Korinne Caruso, Texas A&M University, Corpus Christi; Gregory R. Reuter, Texas A&M University, Corpus Christi

Tagged Divisions

Division Experimentation & Lab-Oriented Studies

experience based on the post experimentsurvey. The laboratory can be also integrated with more advanced classes, like rapidmanufacturing process as discussed by Creese9 or computer aided optimization of castings, thelatter being however better suited to graduate engineering education10.It is fortunate that Texas A&M University Corpus Christi has a metal casting facility thatengineering students can have access to once a semester and perform one of their laboratoryexercises. Plans are in the making for students to use this facility for casting parts for theirprojects, including capstone projects, and continue this fruitful collaboration with the colleaguesin the Department of Arts

Conference Session

Concurrent Paper Tracks - Session I

Collection

2015 ASEE International Forum

Authors

Monica Gray P.E., The Lincoln University - College of Science & Technology; Constance Loretta Lundy

Tagged Topics

Diversity, International Forum

seminars,internships, learning communities, and capstone projects compared to only two anecdotalreferences to study aboard.This paper postulates that ABET’s Student Outcome 3(h) “the broad education necessary tounderstand the impact of engineering solutions in a global, economic, environmental, andsocietal context” and Student Outcome 3(i) "a recognition of the need for, and an ability toengage in lifelong learning" are not mutually exclusive but rather interdependent and mutualisticin nature. Outcomes by their very nature describes what students should know or can do by thetime of graduation. The implication is therefore, that lifelong learning and a global perspectivemust originate within the 4-year engineering curriculum/program. The

Conference Session

ASEE Multimedia Session

Collection

2002 Annual Conference

Authors

Stephanie Adams

%), are White/Caucasian(80.49%) and are male (82.93%). The remainder of the respondents were: Asian Americans(7.32%), Black/African Americans (4.88%), Foreign Nationals (4.88%),Hispanics/Latinos/Mexican Americans and female (14.63%). Participants were asked about their team training experiences and how they use teams intheir classroom. Findings show that more than two thirds (68.29%) of respondents haveparticipated in a workshop on effective teaming or teaming techniques. Among all therespondents, 80.49% use teams for design projects suggesting that they consider this an essentialtraining activity in preparing students for the work place. More than half of those surveyed(51.22%) use teams for homework/problem activities, 70.73% for in

Conference Session

New ET Programs

Collection

2002 Annual Conference

Authors

Vernon Lewis; Paul Kauffmann

Society for Engineering Education Session: 22472. ODU Engineering Technology Studies 33Students must complete 33 credits of Engineering Technology courses in their selected studyarea. This group of courses must include a capstone senior project in which the studentdemonstrates proficiency in the selected area. Several popular options are described in the tablebelow.3. Electives 6Selected from technology, business, or other area supporting student career interest.Total Upper Division Credits beyond AAS

Collection

2024 South East Section Meeting

Authors

Simon Thomas Ghanat P.E., The Citadel; Deirdre D Ragan, The Citadel

course is taken in preparation for the senior year capstone design project.Components of this course include approaches to design, teamwork, project definition, projectplanning, understanding the customer, product specifications, concept generation, andpresentation skills. Usually, class time is split between instructor-led teaching of concepts, in-class individual and small group exercises, and a semester-long team design project.To increase connections to the needs of a customer and to focus creativity and design choices oncreating value-added products, open-ended in-class activities are conducted throughout thesemester. Students are presented with hypothetical situations with constrained design choices,unique customer requirements, and a

Collection

2023 PSW

Authors

Tim Hong-Chuan Lin; Jenny Zhen Yu

3.3 shows defective submissions ofprogramming students for the assignments and exams.Section 4 of this paper presents some remedies to the programming problems with pair programming, instructor’s fixes(educating the students on NOT doing the hard code approach, on teaching the students to do test and debug byincorporating several test cases in every programming assignment etc.Section 5 concludes this paper.2. Common Programming Errors (when students take the classes)2.1 When do Programming Problems Happen?Students of programming can have problems at the time when they take the programming class(es), or later on when theyneed to use their programming skills learned earlier in either a later class, capstone project in school, internship project

Conference Session

Gainful Employment: Preparing Technicians to Satisfy the Needs of Industry

Collection

2014 ASEE Annual Conference & Exposition

Authors

Daniel M. Hull P.E., OP-TEC; Chrysanthos Andreas Panayiotou, Indian River State College

Tagged Divisions

Two Year College Division

2. Electro Optical Devices 3. Fiber Optics 4. Lasers Systems Robotics Specialty 5. Advanced Programmable Logic Controllers 6. Intro to Robotic Systems 7. Manufacturing Processes 8. Capstone Project Telecommunications Specialty 9. Computer Repair 10. Wireless Networks 11. Wireless Security 12. Telecommunication Systems TOTAL 60 Page 24.1151.6Replicating the Photonics Systems Technician Curriculum ModelIn 2014, 28 colleges across the U.S. have adopted the Photonics Systems Technician

Conference Session

Environmental engineering pedagogy and innovation

Collection

2013 ASEE Annual Conference & Exposition

Authors

Alison M Cupples, Michigan State University; Susan J. Masten P.E., Michigan State University; Weimin Sun, Rutgers,The State University of New Jersey

Tagged Divisions

Environmental Engineering

engineering at Michigan State University. She teaches a range of courses from the introduction to engineering course to the upperclass courses on water/wastewater treatment, air pollution engineering and science, and capstone design . She was recently involved in the development of a B.S. program in environmental engineering Dr. Masten’s research involves the use of chemical oxidants for the remediation of soils, water, and leachates contaminated with hazardous organic chemicals. Dr. Masten has been working etensively to develop water treatment technologies that are more effective and suitable for use in decentralized water treatment systems. Over the last year, she has also begun to evaluate water treatment technologies

Conference Session

Engineering Leadership Development Division Technical Session

Collection

2013 ASEE Annual Conference & Exposition

Authors

David Bayless, Ohio University

Tagged Divisions

Engineering Leadership Development Division

Paper ID #6035Using Leadership Education Practices to Enhance Freshmen EngineeringStudent Interviewing SkillsDr. David Bayless, Ohio University Dr. Bayless is the Loehr professor of Mechanical Engineering and the director of Ohio University’s Center of Excellence in Energy and the Environment. He is also the director of the Robe Leadership Institute, director of the Center for Algal Engineering Research and Commercialization (an Ohio Third Frontier Wright Project), and director of the Ohio Coal Research Center at Ohio University, where he is engaged in the development of energy and environmental technology, such as

Conference Session

Faculty Development Division (FDD) Technical Session 11

Collection

2023 ASEE Annual Conference & Exposition

Authors

Leonardo Pollettini Marcos, Purdue University, West Lafayette; Tiantian Li, Purdue University, West Lafayette ; Kristin Bartlett; Wanju Huang, Purdue University, West Lafayette ; Kerrie A. Douglas, Purdue University, West Lafayette

Tagged Divisions

Faculty Development Division (FDD)

-Based Enterprise”, and “6: MBSE Capstone Project”. These aredesigned to provide students with enough knowledge and practice to enable them to startapplying MBSE in their professional environments.The interview protocol was constructed to understand instructor experiences using the modules,the scaffoldings they provided to learners, and the effectiveness of the modules as perceived bythem. All the participants in this WIP were involved in the module design process as contentselectors or as content producers. Content selectors were responsible for content selection andestablishing main course goals in the modules while collaborating with instructional designers onthe pedagogical approach. Content producers were in charge of transferring the

Collection

2024 ASEE Midwest Section Conference

Authors

Chinmaya Joshi; Clancy Milam; Corbin Russ; Stephen Pierson; Han Hu; Ying Sun

uses steady-state analysis to create a temperature profileacross the sample and subsequently calculate the thermal resistance and conductivity. This setupcan greatly assist students with thermal characterization requirements for testing materials in-house and reduce development time in capstone projects and research while allowing them tounderstand the fundamentals of heat transfer through practical applications. It is also a goodalternative for organizations looking into building their thermal characterization facilities.Keywords: Thermal Conductivity, Heat Conduction, Experimental Facility, UndergraduateStudent PosterNomenclature:k = Thermal ConductivityR = Thermal ResistanceT = Temperaturet = Timeq = Heat Flow

Conference Session

Civil Engineering Division (CIVIL) Technical Session - Professional Practice 2

Collection

2024 ASEE Annual Conference & Exposition

Authors

Jennifer Retherford, University of Tennessee at Knoxville; Sarah Mobley, University of Tennessee at Knoxville

Tagged Divisions

Civil Engineering Division (CIVIL)

; Exposition, 2009, p. 14.223. 1- 14.223. 18.[5] S. D. Hart, “Applying the ExCEEd Teaching Model in a Flipped Classroom Environment,” in 2016 ASEE Annual Conference & Exposition, 2016.[6] J. Q. Retherford and J. K. Amoah, “Incorporating ASCE’s ExCEEd Principles in Capstone Project and Other Active Learning Courses,” in Proceedings of the American Society of Engineering Education Southeast Section Conference, 2014.[7] R. W. Welch and C. B. Farnsworth, “Using the ExCEEd Model for Distance Education,” in 2011 ASEE Annual Conference & Exposition, 2011, p. 22.1645. 1-22.1645. 22.

Conference Session

Experimentation and Laboratory-Oriented Studies Division (ELOS) Technical Session 1: Laboratories in Mechanics, Thermofluids, Embedded Systems, and Controls

Collection

2023 ASEE Annual Conference & Exposition

Authors

Fiona C. Levey, Worcester Polytechnic Institute

Tagged Divisions

Experimentation and Laboratory-Oriented Studies Division (DELOS)

Paper ID #39357Work-in-Progress: Hands-on group activities for large fluid mechanicsclasses in a traditional lecture hall settingDr. Fiona C. Levey, Worcester Polytechnic Institute Dr. Fiona Levey is an Associate Teaching Professor the Department of Mechanical and Materials Engi- neering at Worcester Polytechnic Institute. She teaches materials science and thermal fluids classes and advises capstone design projects. She employs active learning and project-based learning in her curricu- lum, using varied approaches for different levels, and correlating course design and teaching techniques to learning outcomes. Dr. Levey

Collection

2016 Rocky Mountain Section Conference

Authors

Jackson J. Graham; Randy C. Hurd; Tadd T. Truscott

necessary prerequisite courses and student confidence in their ownunderstanding, we feel it safe to assume that students have already been exposed to two-dimensional heat transfer and have a reasonable understanding of the material.Questions three, four, and eight focus on whether the lab provided students with an increasedunderstanding of two-dimensional heat transfer and a greater ability to visualize the process.Students generally agreed with this notion, especially in terms of visualization. Additionally, inquestion five, students generally agree that participating in a numerical and experimental heattransfer project was more instructional than a similar project performed on paper. Questions 6and 7 indicate that the lab setting not only helped

Collection

2010 ASEE Midwest Section Conference

Authors

Don Malzahn; Lawrence Whitman; Zulma Toro-Ramos; Julie-Ellen Acosta

engineering disciplines, it is not part of a capstone project andstudents have little or no formal experience in business or training in teamwork. AnotherProceedings of the 2010 Midwest Section Conference of the American Society for Engineering Educationimportant consideration is the difference between the experience of undergraduate students andthe experience of those for whom most leadership development programs are targeted. Table 4highlights some of the differences between industry and university students of leadership.Table 4 Situational comparison of Leadership Development environment for industry anduniversity participants. Professionals StudentsIdentified by others as having