Conference Session

Curriculum in Engineering Leadership Development

Collection

2015 ASEE Annual Conference & Exposition

Authors

Steven W. Klosterman, Northeastern University; Steven T. McGonagle, Northeastern University; Simon Pitts, Northeastern University

Tagged Divisions

Engineering Leadership Development Division

engineering and technology.This paper describes how the program builds awareness of the broad characteristics of leadershipleading up to this exercise, enriching the understanding of how leadership emerges and evolves,as a blueprint of a best practice in a nationally recognized curriculum. Included is an overviewand structure of the leadership program and brief descriptions of the leadership topics taught inthe class, including supporting literature, and outcomes.2 The Assignment – Personal Case StudyThe purpose of the assignment is to give students the opportunity to analyze the leadershipapproach and philosophies of historic figures and reflect upon how their styles match andcontrast with what they’ve been taught in the classroom, and then share

Collection

2024 CIEC

Authors

David Satterwhite

ETD 465 Impact of Chat GPT on the Marine Engineering Technology Curriculum David Satterwhite California State University Maritime AcademyAbstractIn recent years, ChatGPT, an arguably groundbreaking product by OpenAI, has significantlyinfluenced the pedagogical methods and processes employed in various academic courses acrossthe globe. This paper explore the potential impact of ChatGPT on student engagement andlearning in the EPO-125, Introduction to Marine Engineering course, at the California StateUniversity Maritime Academy (CSUM). Some areas of focus include accuracy, accessibility

Conference Session

Systems Engineering Division Technical Session 1

Collection

2015 ASEE Annual Conference & Exposition

Authors

Runing Zhang P.E., Metropolitan State University of Denver; Aaron Brown, Metropolitan State University of Denver; Jeno Balogh, Metropolitan State University of Denver

Tagged Divisions

Systems Engineering

1education has been widely recognized globally. The advances in science and technology and thecreative works by US engineering schools make the nation a leader in innovative technologydevelopment in the world. In contrast, the lack of an integrative systemic engineering knowledgelimits the vision of US engineers in the leadership of sustainable development.Sustainable development requires engineering engagement in policy making, risk analysis, anddisaster management. Engineers have developed technical specifications, standards, guidelines,regulations and building codes in many areas. However, it is realized that engineers should alsoplay an important role in policymaking, legislative and other administrative activities. In recentyears, the US

Collection

1997 Annual Conference

Authors

Karen Frair; Karan L. Watson

improvement through assessment and evaluation. TheFoundation Coalition partners draw on their diverse strengths and mutual support to constructimproved curricula and learning environments; to attract and retain a more demographicallydiverse student body; and to graduate a new generation of engineers who can more effectivelysolve increasingly complex, rapidly changing societal problems. The improvement ofrecruitment and graduation of traditionally underrepresented groups is an integral part of theFoundation Coalition strategic plan. This paper discusses Coalition projects to date and otherefforts focused on increasing the participation of underrepresented groups in engineeringeducation.IntroductionThe National Science Foundation's Engineering

Conference Session

Projects in Manufacturing Curriculum

Collection

2017 ASEE Annual Conference & Exposition

Authors

Richard Chiou, Drexel University (Eng. & Eng. Tech.); Irina Nicoleta Ciobanescu Husanu, Drexel University (Tech.); Michael G Mauk P.E., Drexel University; Tzu-Liang Bill Tseng, University of Texas, El Paso

Tagged Divisions

Manufacturing

Paper ID #19458A Senior Design Project in Prototyping Roadway Energy Harvesting withPiezoelectric CrystalDr. Richard Chiou, Drexel University (Eng. & Eng. Tech.) Dr. Richard Chiou is Associate Professor within the Engineering Technology Department at Drexel Uni- versity, Philadelphia, USA. He received his Ph.D. degree in the G.W. Woodruff School of Mechanical Engineering at Georgia Institute of Technology. His educational background is in manufacturing with an emphasis on mechatronics. In addition to his many years of industrial experience, he has taught many different engineering and technology courses at

Conference Session

Innovative Instructional Strategies for Integrating Sustainability

Collection

2016 ASEE Annual Conference & Exposition

Authors

Abbie B Liel P.E., University of Colorado, Boulder; Sarah J. Welsh-Huggins, University of Colorado, Boulder

Tagged Divisions

Civil Engineering

with an interdisciplinary and integrated perspective of fourkey features of building design: Safety, Sustainability, Style, and Society. This course introducesstudents to the idea that engineering design of buildings, and the organization of communities,and cities is highly integrated with and constrained by societal and environmental influences.The classwork and assignments asked students to analyze buildings both qualitatively andquantitatively. This paper summarizes the curriculum and assignments developed for the course.In addition to providing a template for an interdisciplinary class, the concepts in this coursecould be integrated into upper-level engineering courses to encourage students to interrogate theenvironmental, economic, social

Conference Session

Recruitment & Retention of Women II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Donna Milgram, National Institute for Women in Trades, Technology & Sciences (IWITTS)

Tagged Divisions

Women in Engineering

entering the School of ComputerScience went from 7% to 42% in five years, after a two-year (extended to four year) combinationproject and program made a series of institutional changes. A few of the Carnegie Melloninterventions included adding real-world examples to computer science curriculum, offering pre-entry summer bridge courses, creating four alternative paths into the program, professionaldevelopment for faculty, and creating support networks between female undergraduates,graduate students, and faculty5. New Mexico State University concentrated on one strategy—offering retention training to STEM faculty—which helped to improve both retention rates andgrades of female students6. The downside to this integrative and institutional-change

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

undergraduate institution that may be usefulto other faculty and other institution in their quest to develop laboratories to support their workas well as engage undergraduate students in research.REFERENCES[1] Farrow, D., and R. LeMaster. “Automation laboratory development enhances studentlearning.” Proceedings of the ASEE Annual Conference & Exposition, Chicago, IL, June 18-21,2006.[2] Scott, S., R. Athinarayanan, Xiaobing Hou, and Shuju Wu. “Integrated curriculum andlaboratory development of an undergraduate telecommunications and computer networkingprogram.” Proceedings of the ASEE Annual Conference & Exposition, Pittsburgh, PA, June 22- Page

Conference Session

Computers in Education Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Timothy D. Ropp, Purdue University, West Lafayette; David M. Whittinghill, Purdue University, West Lafayette; Raymond A. Hansen, Purdue University; Erin E. Bowen, Purdue University; Joshua L. Holmes

Tagged Divisions

Computers in Education

and testing of the network and electronic job taskcard system is ongoing. This includes continued integration into an actual curriculum laboratory(AT 402), in which paper-based lab aircraft maintenance tasks have been extensively used in thepast. Early feedback from student users indicated they were able to acclimate to the onlinesystem with only a few minutes introduction. Maintenance tasks using the test job task cardswere performed successfully using just a table PC.Outcomes sought for the networked computing system being developed within the airframelaboratory are to enhance the curriculum and student experience by establishing a true to lifenetworked aircraft maintenance environment. This in turn develops a natural research

Conference Session

Innovative Curriculum in Engineering Technology

Collection

2007 Annual Conference & Exposition

Authors

Hamad Albadr, Riyadh College of Technology

Tagged Divisions

Engineering Technology

Engineering External FactorsWhile these changes in health care are occurring, there are other external factors that will alsoaffect the Biomedical engineering field: A. Internationalization of science and technology.The science and technology used in health care are universal. Coupled with globalmanufacturing and international companies, it is clear that science and technology areworldwide in application. B. Integration of Technology. The examples provided by some of the preceding authors, it is evident that health caretechnology is sophisticated and cross-disciplinary. The application of communications theoryto improving the accuracy and speed of DNA sequencing is such an example. In addition,devices are increasingly interdependent and

Conference Session

Best Paper, Best Diversity Paper

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

James Buchholz, University of Iowa; Jae-Eun Russell, University of Iowa; Venanzio Cichella, University of Iowa; Casey Harwood, University of Iowa; Shaoping Xiao, University of Iowa; Pablo M. Carrica, University of Iowa

Tagged Divisions

Ocean and Marine

Paper ID #33040A Curriculum on Naval Science & Technology for a Midwestern UniversityDr. James Buchholz, University of Iowa James Buchholz is an Associate Professor of Mechanical Engineering at the University of Iowa. He received the Bachelors and Masters degrees in Mechanical Engineering from the University of Alberta, and the Ph.D. degree in Mechanical and Aerospace Engineering from Princeton University. He teaches courses in fluid mechanics and conducts research in unsteady aerodynamics and hydrodynamics.Dr. Jae-Eun Russell, University of Iowa Dr. Russell serves as the Director of Research & Analytics Office of

Conference Session

New Approaches in Engineering Curriculum

Collection

2002 Annual Conference

Authors

Melany Ciampi; Claudio Brito

their abilities of applyingtheir skills in the global context with success.The courses last a period of four months each and the professionals are invited and hiredspecially for this program.. They can be a physician or mathematician or biologist or even apsychologist. There is also an evaluation of the student for each course and a minimum score topass to next year is required. At the end of the program the student will be a professional withfull formation in Electrical Engineer, with strong knowledge in bioengineering, and medicineand health, besides management, economy and law.VII. Evaluation of Student Knowledge AchievementThe main feedback to the necessary adjustments for the betterment of the curriculum and thecontent of every course is

Conference Session

Innovation in Curriculum Development

Collection

2005 Annual Conference

Authors

Susan Coleman; Hisham Alnajjar; Hesham Elsaghir; Alan Hadad; Donald Leone

, American Society for Engineering Educationform of course delivery, and then determine where or indeed if, the results should be extended toother courses. The backbone of any distance learning course is the Internet. “The Internet has alreadybecome an integral part of much of society. This system has revolutionized journalism (due toonline up-to-the-minute news), science (because of the capacity for global cooperative research),publishing (because of the ease with which anyone can publish their ideas) and many otherfields. These activities deal with and disseminate truly powerful content. This is where theInternet has its real and lasting value, and why it will continue to grow, develop, and becomeeven more ensconced in society. Geographic

Conference Session

Research Methods and Studies on Engineering Education Research

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Javeed Kittur, Arizona State University; George K. Karway, Arizona State University; Mohammad Zaid Alrajhi, Arizona State University; King Saud University; Brian Carl Nelson, Arizona State University; Seungki Shin, Seoul National University of Education

Tagged Divisions

Educational Research and Methods

, andcultures.Qualitative research method was used to understand the approaches used to incorporate the fivediscourses of design thinking when designing a new curriculum or improvising an existing one. Tounderstand from the experiences of individuals with expertise in curriculum design and to get moreinsights on the research question, ‘How can the elements of design thinking be integrated into thecurriculum to provide appropriate skills that support interdisciplinary and integrative efforts to meetthe needs of 21st-century life?’, three semi-structured interviews were conducted using an onlineplatform. Each interview lasted between 45 to 60 minutes. The interviews were recorded,transcribed, and coded and used in the analysis. The deductive coding approach was used

Conference Session

Evaluation: Technology and Tools for K-12 Engineering Education

Collection

2015 ASEE Annual Conference & Exposition

Authors

Maria Alessandra Montironi, UC Davis; Daniel S Eliahu, UC Davis C-STEM Center; Harry H. Cheng, University of California, Davis

Tagged Topics

Diversity

Tagged Divisions

K-12 & Pre-College Engineering

Paper ID #12373A Robotics-Based 3D Modeling Curriculum for K-12 EducationMaria Alessandra Montironi, UC Davis Maria Alessandra Montironi is a PhD candidate in Mechanical Engineering at the University of California Davis. Since 2013 she has been involved with the UC Davis Center for Integrated Computing and STEM Education (C-STEM). Within the Center, she is involved in developing new strategies for improving K-12 STEM Education through integration of computing, 3D modeling and robotics.Mr. Daniel S Eliahu, UC Davis C-STEM Center Danny Eliahu is an undergraduate mechanical engineering student at the University of California

Collection

1998 Annual Conference

Authors

M. R. Foster; H. Öz

of areas, from aerodynamics to cockpit design. -2-3. The ‘engineering science core’ must be completed by the end of the third year.4. Learning should be integrated across the curriculum, utilizing design- or research-related activities to focus students on problem-solving. Comprehensive design activities mimicking real-world scenarios should be woven through the curriculum.Criterion 4 is responsive to the problems with integration of material across course boundaries,and item 3 really allows the flexibility that makes item 2 possible.With these four principles in place and agreed to, we found several direct corollaries.• The total number of quarter hours for graduation should be about 180

Conference Session

Biomedical Engineering Division Poster Session (Works in Progress)

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Timothy E. Allen, University of Virginia

Tagged Divisions

Biomedical Engineering

Paper ID #34474WIP: Integration of Computational Modeling Active Learning ActivitiesWithin a Core Graduate Organ Systems Physiology CourseDr. Timothy E. Allen, University of Virginia Dr. Timothy E. Allen is an Associate Professor in the Department of Biomedical Engineering at the University of Virginia. He received a B.S.E. in Biomedical Engineering at Duke University and M.S. and Ph.D. degrees in Bioengineering at the University of California, San Diego. Dr. Allen’s teaching activities include coordinating the core undergraduate teaching labs and the Capstone Design sequence in the BME department at the University of

Conference Session

Curriculum Development in Graphics

Collection

2002 Annual Conference

Authors

John Demel

– we should not be focused on manual drawings but should be looking at how well students can visualize and create 3D models.Doug Baxter – if graphics is integrated across the curriculum when should you give a pre- and post-test and a knowledge/skills test?Development WorkAssuming that the Krueger test is available and that we can combine it with the Sorby test tocreate a bank of test questions, we will explore creation of a Web site that could randomly pick45 – 50 questions to be used as a pre- and post-test. The questions would be put into electronicform and would be checked against the current ANSI standards.Additional work will be done on questions for the skills/knowledge test. These will developedso that there are sets of multiple

Conference Session

Curriculum Development in Civil ET

Collection

2005 Annual Conference

Authors

Maher Murad

junior level for all civil engineering technology students. The course credit hourswere increased to 4 semester credit hours to allow for developing a laboratory component for thecourse.The use of lab assignments in the transportation course allowed students to get hands-onexperience and training in conducting transportation studies utilizing the latest standardsemployed in the industry. The lab also enabled the instructor to use open-ended problems suchthat members of each team can search for feasible solutions that meet specific guidelines.Different teams may end up with different analysis results or design solutions. Feedback fromstudents indicated their appreciation for integrating the lab assignments into the course.This paper describes the

Conference Session

Design in the ECE Curriculum

Collection

2010 Annual Conference & Exposition

Authors

Natalia Litchinitser, SUNY at Buffalo; Albert H. Titus, SUNY at Buffalo; Alexander N. Cartwright, SUNY at Buffalo; Vladimir V. Mitin, SUNY at Buffalo

Tagged Divisions

Electrical and Computer

diodes, lasers, and display systems. Inaddition, it has been essential in the development of new imaging techniques for biomedicalresearch, as well as in the development of new fabrication methodologies for electronics. Todate, these remarkable contributions to engineering have largely been ignored in theundergraduate curriculum in electrical engineering.Here, we present our efforts to develop educational modules for nanophotonics with an emphasison how the resulting technologies apply to sustainability and quality of life via devices based onnanostructures: e.g., solar cells, high efficiency lighting, environmental sensing, and other lowerpower optoelectronic devices. Specifically, in this project, we are developing nanophotonicsKnowledge

Conference Session

Curriculum Development in Civil ET

Collection

2004 Annual Conference

Authors

Carmine Balascio

– and to count the homework problems as an important component of the final grade.Even for a relatively small 15-30 student class, which is a typical for EGTE 321 and two othercourses taught by the instructor, such a commitment requires a significant amount of time. Useof a PBL-type approach in conjunction with the LON-CAPA homework system in EGTE 321,not only helps to ensure that students get a substantial time-on-task component but also addresseseither directly or indirectly the other problems described in the list above.In what is conventionally envisioned as problem-based-learning (PBL), students work in smallgroups to understand and integrate key information by identifying, researching, and applyingconcepts and practices needed to solve

Conference Session

First-Year Programs: Monday Cornucopia (Classroom Innovations)

Collection

2019 ASEE Annual Conference & Exposition

Authors

Michael Joseph Reese Jr., Johns Hopkins University; Michael L. Falk, Johns Hopkins University; Joanne F. Selinski, Johns Hopkins University; Sara Miner More, Johns Hopkins University; Ali Darvish, Johns Hopkins University; Ivan Sekyonda, Johns Hopkins University; Amy Brusini, Johns Hopkins University; Alejandra J. Magana, Purdue University-Main Campus, West Lafayette (College of Engineering); Ahmed Ibrahim, Johns Hopkins University; Nathan Graham, Johns Hopkins University; Paul Huckett, Johns Hopkins University

Tagged Divisions

First-Year Programs

, Santa Barbara. He has received several awards for his educational accomplishments, and in 2018 received the Materials Research Society’s Impact Award for his work on broadening participation in STEM and com- puting education. His education research focuses on integrating computation into the undergraduate core curriculum. Falk also served as the lead investigator for STEM Achievement in Baltimore Elementary Schools (SABES) an NSF funded Community Enterprise for STEM Learning partnership between JHU and Baltimore City Schools.Dr. Joanne F. Selinski, Johns Hopkins University Joanne Selinski is an Associate Teaching Professor and the Director of Undergraduate Studies in the Computer Science Department at Johns

Conference Session

Engineering Empowered Communities: Place-Based Community Engaged Learning

Collection

2024 ASEE Annual Conference & Exposition

Authors

Cindy Hua, Southern Methodist University; Jessie Marshall Zarazaga, Southern Methodist University

Tagged Divisions

Community Engagement Division (COMMENG)

relationships within education, teachers, community partners, and the learningprocess. Using a multiple case study design to investigate teachers’ perspectives on theintegration of community-based learning in the classroom, two primary questions guided thisstudy: 1. How do case study teachers integrate community-based learning in applied STEM classrooms? 2. How does the integration of community-based learning impact case study teachers’ perspectives on STEM education and curriculum design?Participants and contextTwo former public high school teachers from an urban school district were identified asparticipants in this study. Participant selection was convenient but purposeful, formed of teachersconnected to the researcher through a

Conference Session

Curriculum in Electrical Engineering Technology

Collection

2009 Annual Conference & Exposition

Authors

Kati Wilson, Texas A&M University; Ana Elisa Goulart, Texas A&M University; Wei Zhan, Texas A&M University

Tagged Divisions

Engineering Technology

equipmentneeded for the experiments and their network setup. Some feedback from our students is alsopresented. Section 4 presents additional laboratory experiments that are being adopted in a moreadvanced telecommunications class (ENTC 345). Finally, we conclude this paper by evaluatingthis VoIP initiative and discussing future plans to keep integrating VoIP into our curriculum.2 – Moving towards IP-based communicationsThe environment where this VoIP initiative is taking place is the Electronics andTelecommunications Engineering Technology program at Texas A&M. This four-yearengineering program offers several courses on telecommunication networks. One of them is aclass on Local and Metropolitan Area Networks (ENTC 315), which is a required class to

Conference Session

Materials Division Technical Session 1

Collection

2018 ASEE Annual Conference & Exposition

Authors

Xiao Zhang, University of Illinois, Urbana-Champaign; Andre Schleife, University of Illinois, Urbana-Champaign; Andrew Ferguson, University of Illinois, Urbana-Champaign; Pascal Bellon, University of Illinois, Urbana-Champaign; Timothy Bretl, University of Illinois, Urbana-Champaign; Geoffrey L. Herman, University of Illinois, Urbana-Champaign; Jessica A. Krogstad, University of Illinois, Urbana-Champaign; Robert Maass, University of Illinois, Urbana-Champaign; Cecilia Leal, University of Illinois, Urbana-Champaign; Dallas R. Trinkle , University of Illinois, Urbana-Champaign; Jian Ku Shang, University of Illinois, Urbana-Champaign; Matthew West, University of Illinois, Urbana-Champaign

Tagged Topics

Diversity

Tagged Divisions

Materials

now approaching theirsenior years. In this paper, we present the recent progress of our computational curriculum andfocus on the influence of the program on the performance of students in senior computationalmodeling classes and senior classes with computational modules.2 IntroductionComputational modeling of materials properties has grown increasingly important in both academiaand industry.[1] Survey data from 2009 shows that the an average of 50 % of new hires are ex-pected to have computational training experience. [1] Due to the well-known need of computa-tional skills, it is vital to provide computational training to undergraduate students in materialsscience.[1, 2] A recent study by Vieira and others[3] shows that integrating

Conference Session

Ocean and Marine Division Technical Session 1

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jennifer Grimsley Michaeli P.E., Old Dominion University; Paul Moses; Gene Hou, Old Dominion University

Tagged Divisions

Ocean and Marine

distance-learning format.These courses are Marine Power and Energy Systems and Maintenance Engineering. This paperpresents an overview of the curriculum, traditional and unique pedagogical methodsimplemented in the distance learning courses, assessment of the course offerings, andrecommendations to be implemented in the curriculum development and future course offeringsof Old Dominion Old Dominion University’s distance learning marine engineering educationprogram.INTRODUCTIONOld Dominion University, located in Norfolk in the metropolitan Hampton Roads region ofVirginia, is a dynamic public research institution that serves its students and enriches the state, thenation, and the world through rigorous academic programs, strategic partnerships, and

Conference Session

Aerospace Curriculum and Collaborations

Collection

2011 ASEE Annual Conference & Exposition

Authors

Valana L. Wells, Arizona State University; Jenefer Husman, Arizona State University; Praveen Shankar, Arizona State University; Wen-Ting Chung, Arizona State University

Tagged Divisions

Aerospace

in many cases and seemingly not as helpful in demonstrating concepts as was firstimagined. (One of the major problems encountered was an incompatibility between Linux andthe classroom projection system.) Thus, the software was used only occasionally for classroomdemonstration, but it was integrated extensively into the homework assignments throughout thesemester.A typical homework assignment is outlined in the box below. Upon completion of thisassignment, students are expected to predict the lift-curve slope for an airfoil and the effect ofcamber on the lift curve. Up to this point, the classroom discussion has centered on definition oflift and drag, integrating surface distributions of pressure and stress to calculate forces on anairfoil

Conference Session

Curriculum Development in BIO Engr.

Collection

2002 Annual Conference

Authors

Richard Jendrucko; Jack Wasserman

philosophy of integrating the life sciences with engineering topical material,undergraduate BME programs include courses in mathematics, the physical and life sciences,engineering sciences (e.g. electric circuits, heat transfer) and a group of specialty BME courses.The latter may include biomechanics, biomaterials, bioinstrumentation, biotransport processes,BME laboratory and a senior design experience among other areas.Not surprisingly, as students at major universities become knowledgeable of the existence of anundergraduate BME program (e.g. via catalog or web site review), they consider the utility of aninterdisciplinary degree in BME for the pursuit of careers other than the traditional set listedabove. In particular, it has been common for

Conference Session

Computers in Education Division Poster Session

Collection

2014 ASEE Annual Conference & Exposition

Authors

Rachel M. White, Oregon State University; Bill Jay Brooks, Oregon State University; Debra M. Gilbuena, Oregon State University; Milo Koretsky, Oregon State University

Tagged Divisions

Computers in Education

promoting the use of higher-level cognitive skills in engineering problem solving. His research interests particularly focus on what prevents students from being able to integrate and extend the knowledge developed in specific courses in the core curriculum to the more complex, authentic problems and projects they face as professionals. Dr. Koretsky is one of the founding members of the Center for Lifelong STEM Education Research at OSU. Page 24.1387.1 c American Society for Engineering Education, 2014 Work-in-Progress: Development of an Android-based Student Mobile

Conference Session

Engineering Ethics I

Collection

2008 Annual Conference & Exposition

Authors

Jose Cruz, University of Puerto Rico-Mayaguez; William Frey, University of Puerto Rico-Mayaguez; Halley Sanchez, University of Puerto Rico-Mayaguez; Aury Curbelo, University of Puerto Rico-Mayaguez

Tagged Divisions

Engineering Ethics

AC 2008-2834: DEVELOPING ENGINEERING ETHICS ACROSS THECURRICULUM BEST PRACTICES: THE EAC TOOLKITJose Cruz, University of Puerto Rico-MayaguezWilliam Frey, University of Puerto Rico-MayaguezHalley Sanchez, University of Puerto Rico-MayaguezAury Curbelo, University of Puerto Rico-Mayaguez Page 13.396.1© American Society for Engineering Education, 2008 Developing Engineering Ethics Across the Curriculum Best Practices: The EAC ToolkitAbstract - This paper will discuss a new project in ethics across the curriculum teaching andpedagogy, the EAC Toolkit. The Toolkit project, currently under funding by the NationalScience Foundation, is constructing an