Conference Session

NSF Grantees Poster Session

Collection

2009 Annual Conference & Exposition

Authors

Trey Shirley, Clemson University; John Wagner, Clemson University; Randy Collins, Clemson University; Anand Gramopadhye, Clemson University

better prepare studentsfor successful careers in the workplace. As shown in Figure 2, some of these topics include teambuilding, collaborative learning, leadership, communication skills, project management,procurement, and ethics. The first lecture cluster focuses on team dynamics such as teambuilding activities, project management, proper communication techniques, and leadership. Next,students learn how to properly procure materials and equipment, and review general ethics.Finally, the classroom introduction of professional skills can be practiced and utilized in theteam-based laboratory experiments and projects.To reinforce the learning concepts, periodic multi-week homework assignments have beenassigned for completion by student teams

Conference Session

Tricks of the Trade II

Collection

2009 Annual Conference & Exposition

Authors

Edward Gehringer, North Carolina State University

Tagged Divisions

New Engineering Educators

teaching assistants. 2008 ASEE Annual Conference.[6] Verleger, Matthew and Velasquez, Juan. Training of teaching assistants on technology driven lessondevelopment. 2007 ASEE Annual Conference.[7] Prieto, Loreto R. and Altmaier, Elizabeth M. The relationship of prior training and previous teachingexperience to self-efficacy among graduate teaching assistants. Research in Higher Education 35:4 (July 1994), pp.481–497.[8] Jenkins, Susan. Cultural and linguistic miscues: a case study of international teaching assistant and academicfaculty miscommunication. International J. of Intercultural Relations 24:4 (July 2000), pp. 477–501.[9] Branstetter, Steven A. and Handelsman, Mitchell M. Graduate Teaching Assistants: Ethical Training, Beliefs,and Practices

Conference Session

Capstone Design II

Collection

2009 Annual Conference & Exposition

Authors

Joseph Hitt, United States Military Academy; Daisie Boettner, United States Military Academy; Stephen Suhr, United States Military Academy; Joel Dillon, United States Military Academy

Tagged Divisions

Design in Engineering Education

tosupport a more concentrated prototype production timeline (See Figure 3). To alleviatecongestion in the fabrication facility, the four sections of the course were staggered with twosections completing prototype production while the other two sections attended three formallessons on engineering economics, ethics, and project management, respectively. The sectionswould then reverse roles such that each student had approximately one week to complete thefabrication process. Student feedback indicated that while this was sufficient time to build theprototype, it did not allow enough opportunity to complete finishing details. Subsequentiterations of this syllabus will provide an additional design studio lesson to address this concern

Conference Session

Trends in Construction Engineering Education II

Collection

2009 Annual Conference & Exposition

Authors

Muge Mukaddes Darwish, Texas Tech University T-STEM Center; Mary Frances Agnello, Texas Tech

Tagged Divisions

Construction

” (WCED, 1987).Therein the emphasis lies on not compromising the future through sustainable developmentmethods that reflect positively on current situational needs with a lasting appeal towards thefuture.David W. Orr (1992) widened the scope of sustainability in his seminal book “EcologicalLiteracy” from technological to ecological sustainability. Technological sustainability mainlydeals with technological and ethical issues; ecological sustainability is considered an effort thataffects all aspects of a culture. In order to adequately prepare us for the future, Orr envisions adramatic shift in the existing pedagogies of all educational programs—a shift toward an earth-centered education. Earth-centered education entails a rethinking of both the

Conference Session

Developing Young MINDS in Engineering: Part I

Collection

2009 Annual Conference & Exposition

Authors

Arturo Fuentes, University of Texas, Pan American; Robert Freeman, University of Texas, Pan American; Horacio Vasquez, University of Texas, Pan American; Cristina Villalobos, University of Texas, Pan American; Stephen Crown, University of Texas, Pan American; Miguel Gonzalez, University of Texas, Pan American; Olga Ramirez, University of Texas, Pan American

Tagged Divisions

Minorities in Engineering

, systemof units and conversions, ethics, economics, and data presentation and graphing.To achieve the goals of Activity 4, faculty professional development is required to implementCBI. Therefore, faculty members participating in Activity 4 are also encouraged to participate inother activities of this project. Implementing new hands-on activities and challenge-basedinstruction (CBI) methods requires STC STEM faculty members to acquire training throughworkshops designed to promote STEM instruction with modern pedagogical approaches.Moreover, Activity 4 also addresses the need for Qualified Tutors for Advanced DEEA Courses.There is a significant need for qualified tutors and mentors to help students enrolled in the mostadvanced courses (e.g. Calculus

Conference Session

Preparing Engineers for the Global Workplace & Successful Graduates for a Flat World: What Does It Take?

Collection

2009 Annual Conference & Exposition

Authors

Lisa Romkey; Yu-Ling Cheng, University of Toronto

Tagged Divisions

International

and context of work ≠ An ability to work with complexity ≠ Use of a systems thinking approach ≠ Appreciation and understanding of culture and language ≠ An ability to use collaboration techniques and software ≠ Effective oral and written communication ≠ Knowledge of sustainability practices ≠ An ability to assess environmental and energy impact across diverse engineering projects ≠ A well-developed sense of social responsibility and ethics ≠ Entrepreneurial skills ≠ A preparation to work with varying levels of resources and in various types of ≠ organizations ≠ Strong critical thinking skillsThis paper focuses on the final competency, critical thinking, as a competency that isconsistently

Conference Session

Global Engineering Education: Intercultural Awareness and International Experience

Collection

2009 Annual Conference & Exposition

Authors

Aparajita Mazumder, Formerly Director of International Relations

Tagged Divisions

International

andtechnological ventures may be determined by the ability/inability to overcome culturaldifferences. In “Cross-Cultural Business Negotiations,” Hendon et al writes: The way onesucceeds in cross-cultural negotiations is by fully understanding others, using that understandingto one’s own advantages to realize what each party wants from the negotiations, and to turn thenegotiations into a win-win situation from both sides.” Kale in “Universal Code of Ethics inIntercultural Communication” describes the ethical communicator as one “who address people ofother cultures with the same respect that they would like to receive” and as one “who encouragespeople of other cultures to express themselves in their uniqueness.” The ideal communicator is inessence one who

Collection

1996 Annual Conference

Authors

Samuel S. Lee; R. Narasimhan; M. Lewis Temares

and English more relevant for engineering students, 4. Provide training in management, communications and leadership, 5. Emphasize engineering fundamentals and interdisciplinary study, 6. Adhere to professionalism and ethics, 7. Integrate design into the curriculum, incorporating social, environmental and legal considerations. This curriculum was approved by the faculty and steps have been taken for its implementation. Newcourses have been developed and existing courses are being revised in line with the objectives of the curriculum.The Pilot Program To test and refine the concept, this new curriculum was started as a pilot program with a sample group ofstudents in the fall semester of 1995. Having a small number of

Conference Session

Develop Course / Materials / Topics for a Global Engineering Education

Collection

2009 Annual Conference & Exposition

Authors

Lawrence Whitman, Wichita State University; Zulma Toro-Ramos, Wichita State University; Barbara Chaparro, Wichita State University; Veronica Hinkle, Wichita State University; Colin Davidson, Spirit Aerosystems; Chris Wilkinson, Spirit Aerosystems

Tagged Divisions

International

outcomesThe second motivation for the effort described in this paper is the new Engineering Criteria 2000(EC2000) of ABET which states that graduates must attain the following criteria (those thatapply directly to this effort are shown with **):a) an ability to apply knowledge of mathematics, science, and engineeringb) **an ability to design and conduct experiments, as well as to analyze and interpret datac) **an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainabilityd) **an ability to function on multi-disciplinary teamse) **an ability to identify, formulate, and solve engineering

Conference Session

ASCE Policy 465: Raising the Bar

Collection

2009 Annual Conference & Exposition

Authors

Jeffrey Russell, University of Wisconsin, Madison; Gerry Galloway, University of Maryland; Thomas Lenox, American Society of Civil Engineers; James O'Brien, American Society of Civil Engineers

Tagged Divisions

Civil Engineering

; Develop Pilot Modules– Team Development + Ethics ≠ Yr 4 – FY11: Release Team Development + Ethics Module V.1; Develop Pilot Modules – Conflict Mgmt

Conference Session

Critical issues in IT and IET: Focus Group

Collection

2009 Annual Conference & Exposition

Authors

Vladimir Genis, Drexel University; Michael Mauk, Drexel University

Tagged Divisions

Engineering Technology

engineering programs by developing a laboratory- and project-based course, which simulates commercial nanotechnology processes in biomedical and energy applications using an in-depth case study approach. 2. Prepare students for employment in the emerging nanotechnology field in areas such as process development; scale up and control; product specification development; and raw material and capital costing including ethical, environmental, and sustainability concerns. Special attention will be placed on a breadth of manufacturing activities with emphasis toward developing an engineering and engineering technology employee with a valuable range of skills and expertise to the employer. 3. Train the students

Conference Session

International Engineering Education II

Collection

2006 Annual Conference & Exposition

Authors

Greg Mowry, University of St. Thomas-St. Paul

Tagged Divisions

International

duration Page 11.1357.67 Selection of research topics Ü Student selection of research topics based on the joint (November) UST and TUM topic list8 Weekly preparatory team Ü Research support requirements meetings Ü Team ethics and team behavior (October – December) Ü Pairing for research and daily activity Ü Work product requirements ‚ Research summary reports ‚ Support documentation

Conference Session

Novel BME Courses and Course Adaptations

Collection

2006 Annual Conference & Exposition

Authors

Conrad Zapanta, Pennsylvania State University; Keefe Manning, Pennsylvania State University

Tagged Divisions

Biomedical

- 1 1 well as to analyze and interpret data from living and non-living systems3. An ability to design a system, component, or 2 3 1 process to meet desired needs within realistic constraints.4. An ability to function on multi-disciplinary teams - - -5. An ability to identify, formulate, and solve 3 4 1 engineering problems6. An understanding of professional and ethical 2 - - responsibility7. An ability to communicate effectively 1 - 18. The broad education necessary to understand the 1

Conference Session

Physical Models and Other Interactive Tools

Collection

2006 Annual Conference & Exposition

Authors

Douglas Cleary, Rowan University

Tagged Divisions

Civil Engineering

mathematics, science, and engineering •(b) an ability to design and conduct experiments, as well as to analyze and interpret data •(c) an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, • • political, ethical, health and safety, manufacturability, and sustainability(d) an ability to function on multi-disciplinary teams •(e) an ability to identify, formulate, and solve engineering problems •(f) an understanding of professional and ethical responsibility

Conference Session

Engineering Without Borders Programs Involving Students

Collection

2006 Annual Conference & Exposition

Authors

Bernard Amadei, University of Colorado-Boulder; Robyn Sandekian, University of Colorado-Boulder; R. Scott Summers, University of Colorado-Boulder; Angela Bielefeldt, University of Colorado-Boulder

Tagged Divisions

International

universities are doing enough proactively to teach studentswhat they need to know to operate in a future environment is an open question11. Clearly, engineersmust complement their technical and analytical capabilities with a broad understanding of so-called“soft” issues that are non-technical. Experience has shown that social, environmental, economic,cultural, and ethical aspects of a project are often more important than the technical aspects but are Page 11.566.3not often emphasized in conventional engineering education.An issue of equal importance is the education of engineers interested in addressing problems specificto developing

Conference Session

Emerging Trends in Engineering Education Poster Session

Collection

2006 Annual Conference & Exposition

Authors

Mark Henderson, Arizona State University; Bradley Rogers, Arizona State University; Robert Grondin, Arizona State University; Chell Roberts, Arizona State University; Scott Danielson, Arizona State University; Rajeswari Sundararajan, Arizona State University

program outcomes as articulated by the ABET criteria foraccrediting engineering programs, categories a through k of criterion 3. Specifically,Engineering programs must demonstrate that their students attain outcomes a-k, listed below.a. an ability to apply knowledge of mathematics, science, and engineeringb. an ability to design and conduct experiments, as well as to analyze and interpret datac. an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainabilityd. an ability to function on multi-disciplinary teamse. an ability to identify, formulate, and solve engineering problemsf. an

Conference Session

Preparing Engineers for the Global Workplace

Collection

2006 Annual Conference & Exposition

Authors

Gayle Elliott, University of Cincinnati; Cheryl Cates, University of Cincinnati; Brian Dansberry, University of Cincinnati; Louis Trent, University of Cincinnati

Tagged Divisions

International

, Professional Ethics, andTheory and Practice. A variety of learning modules were created for the final two co-op quarters,to be selected and utilized by each individual faculty member. The students in the InternationalCo-op Program provided a unique opportunity to assess the quality of the language and cultureprogram created to prepare them to work abroad, as well as their ability to utilize their skills todevelop cross cultural competencies during their six-month co-op assignments.The learning modules for International Co-op Program have been used for only one class, thegraduating class of 2006. This is also the first class to use any modules, and they began with theOrganizational Culture module sophomore year. Statistical results of the responses are

Conference Session

NSF Grantees Poster Session

Collection

2006 Annual Conference & Exposition

Authors

Chetan Sankar, Auburn University; P.K. Raju, Auburn University

Tagged Divisions

Division Experimentation & Lab-Oriented Studies

) System (15 slides) NASA STS Stress & Strain (21 Field Joint Design, Solid Rocket Statistics, Graphs, Engineering-Management Conflict 51-L (61 slides) Booster, Engineering ethics, Charts, Tables (36 resolution, Statistics (39 slides) slides) Aeronautics (60 slides) slides) In Hot Water Nuclear science, Plant efficiency, Nuclear energy, Graphs, Charts, Decision making, Risk, Financial (27 slides) Temperature, Water Convection, Evaporation, Enthalpy, Algebra (14 slides) assessment, Project management, Cycles (19 slides) Power Cycle (14 slides

Conference Session

Recruiting and Retention

Collection

2006 Annual Conference & Exposition

Authors

Carol Richardson, Rochester Institute of Technology

Tagged Divisions

Engineering Technology

andpersonal success at RIT. FYE instructors promote the development of personalresponsibility and ethical decision making in both local and global contexts.Colleges are allowed to customize the FYE curriculum and some of the ET programsworked with the FYE instructors in 2005-06 to do this customization. This work willcontinue in the spring and summer of 2006 in the ET programs.North Star CenterA central component of this center’s missions is the recruitment, retention, andgraduation of African-American, Latino American, and Native American (AALANA)students at RIT. The center’s philosophy focuses on the importance of promoting adeeper understanding of what it takes to live in a rapidly changing and highlyinterdependent world where science and

Conference Session

Sustainable Engineering

Collection

2006 Annual Conference & Exposition

Authors

Angela Bielefeldt, University of Colorado-Boulder

Tagged Divisions

Environmental Engineering

higher self-reported improvement in the ability to work on multi-disciplinary teams and understanding ofprofessional and ethical responsibility. The students who worked on the EWB independent studyprojects reported less gain in the “ability to design and conduct experiments”, with the exceptionof the student with who also wrote funding proposals and conducted significant laboratoryexperiments. Other responses, such as presentation skills, reflected differences in the specificexpectations of the experience (REU students were required to give an oral presentation at theend of the summer; independent study students generally write a final report but do not orallypresent their research findings).Table 4. ABET outcomes of the undergraduate student

Conference Session

Emerging Trends in Engineering Education Poster Session

Collection

2006 Annual Conference & Exposition

Authors

La Verne Abe Harris, Arizona State University; Rajeswari Sundararajan, Arizona State University; David Machado-Aranda, Northwestern University Medical School; David A. Dean, Northwestern University Medical School

action report fromthe National Innovation Initiative.14 The adoption and acceptance of information technology (IT)in our corporate and industrial culture, has resulted in the social construction of IT in themarketplace. Since the IDeaLaboratory stems from the Graphic Information Technologyprogram in the Department of Technology Management at Arizona State University, it stands toreason that the IDeaLaboratory embraces technology-based solutions with ethical considerationsfor industry-based problems.The lab is dual in purpose and target market. It has the dual role of being a university design,technology, and usability research laboratory, and a media design unit. It examines the role ofhuman factors on innovation, design, and technology through

Conference Session

FPD4 -- Real-World Case Studies & Projects

Collection

2006 Annual Conference & Exposition

Authors

Jason Yao, East Carolina University; Gene Dixon, East Carolina University; William Howard, East Carolina University; Ric Williams; Keith Williamson, East Carolina University; Geoffrey Dieck, East Carolina University; Steve McLawhorn, East Carolina University

Tagged Divisions

First-Year Programs

University (ECU),freshmen are introduced to engineering topics that include solid modeling, mechanicalengineering, electrical engineering, and design engineering. Robots inherently integrate all thesedisciplines. At ECU, student teams are used in a cohort learning environment to build robots.The robot building project serves as a platform for experiential learning in engineeringdisciplines and also serves to develop problem solving skills, interpersonal skills, and ethics. Arobotics competition is embedded into the introductory class work to increase levels ofparticipation, interest and challenge for the freshmen. During classroom and laboratory exercisesleading up to the competition, students build mobile robots to compete in a treasure-huntinggame

Conference Session

Sustainable Engineering

Collection

2006 Annual Conference & Exposition

Authors

Eric Beckman, University of Pittsburgh; Gena Kovalcik, University of Pittsburgh; Mary Besterfield-Sacre, University of Pittsburgh; Robert Ries, University of Pittsburgh; Kim Needy, University of Pittsburgh; Laura Schaefer, University of Pittsburgh; Larry Shuman, University of Pittsburgh

Tagged Divisions

Environmental Engineering

experience and studying the ethical behavior of engineers. He holds the Ph.D. in Operations Research from the John Hopkins, and the BSEE from the University of Cincinnati. Page 11.331.2© American Society for Engineering Education, 2006 Combining Graduate Studies, Research and International Experiences in SustainabilityAbstractA new challenge facing engineering educators is how to train graduate students to routinelyinclude sustainability as important design criteria. Equally important is the need for engineeringstudents to both broaden their perspective and learn to function collaboratively in cross

Conference Session

Social Justice and the Curriculum: Equity, Culture & Social Justice in Education Division Technical Session 3

Collection

2022 ASEE Annual Conference & Exposition

Authors

Jennifer Peuker, California Polytechnic State University, San Luis Obispo; Erin Moss, California Polytechnic State University, San Luis Obispo; Jaxon Silva, California Polytechnic State University, San Luis Obispo; Emily Wannenmacher, California Polytechnic State University, San Luis Obispo; Lauren Cooper, California Polytechnic State University, San Luis Obispo

and havedevaluate the importance of their ethical responsibilities as engineers. [7]There are multiple and varying definitions of social justice; for our purposes, we chose tounderstand social justice as something that stresses the importance of equity and accessibility inresources, and the protection of human rights. This description of social justice carries a mandateto analyze and acknowledge the structural and social inequalities present in society, and work toempower those most marginalized by these systems of inequality. The work to fulfill the mandatemay come in many forms, from actively changing institutions–whether that be government,academic, or economic–policies, and systems that actively cause violence for marginalized

Conference Session

Dimensions of Engineering Literacy and Engineering in General Education

Collection

2017 ASEE Annual Conference & Exposition

Authors

Mani Mina, Iowa State University

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

literacy is more problem break down, understanding and critical use of facts ideas without getting too much into technical detail g. The difference is in dealing with technology and engineering process and how to use and relate the dimensions of knowing, capability, competency, and decision making h. Ethics should be discussed in both with great examples since people are involvedExhibit 4. A summary of the major ideas in the technological literacy classThe above exhibit provide a list of mostly identified characteristics and highlights of howdifferent people in different fields think and deal with the concepts of engineering andtechnological literacy. However, we are will be collecting more

Conference Session

First-Year Programs: Tuesday Potpourri

Collection

2017 ASEE Annual Conference & Exposition

Authors

So Yoon Yoon, Texas A&M University; Mark T. Holtzapple, Texas A&M University; Bonnie J. Dunbar Ph.D., Texas A&M University

Tagged Divisions

First-Year Programs

, electricity, management study environment, learning Processes fluid flow, diffusion, resistance, Ethics 2 Professionalism, registered series/parallel resistors engineer, canons, ethical theory Engineering Accounting Problem 2 Techniques, decomposition, Basic 2 Defining a system, open/closed, systems, solving process, constraints, algorithms, concepts intensive/extensive quantities, state/path flow charts quantities, Universal Accounting Equation, conservation, steady stateEngineering Science

Conference Session

Program-Level Assessments for Multidisciplinary Areas

Collection

2017 ASEE Annual Conference & Exposition

Authors

Pearl Elizabeth Ortega, Texas A&M University; Magdalini Z Lagoudas, Texas A&M University; Jeffrey E. Froyd, Texas A&M University

Tagged Divisions

Multidisciplinary Engineering

research. Transdisciplinary research focuses on societalproblems. Therefore, the research process must take into account the ethical and social factors ofthe problem. Finally, the last category suggested by the developers in the framework isEffectiveness. As Legitimacy focused on the fairness and ethical aspect of the project in regardsto societal needs, Effectiveness of transdisciplinary will determine how the research will make apositive change in its context.Unlike Rubrics 1 and 2, this paper only presents a framework and a prototype rubric. The valuein the proposed Transdisciplinary Quality framework is that it can be used to determine whetheror not the selected project is meeting its research goal. While the researchers tested theframework on

Conference Session

The Philosophy of Engineering and Technological Literacy

Collection

2017 ASEE Annual Conference & Exposition

Authors

John Heywood, Trinity College-Dublin

Tagged Topics

Diversity

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

in Education Conference, 252-258.[4] Matthews, M. R (2000). Time for Science Education. How Teaching the History andPhilosophy of the Pendulum can contribute to Science Literacy. New York. KluwerAcademic.[5] Davis, M (1998). Thinking like an Engineer. Studies in the Ethics of a Profession. NewYork. Oxford University Press.[6] Edels, H (1968).Technology in the sixth form. Trends in Education. No 10. London.Ministry of Education.[7] Vardy, P and Grosch, P (1994). The Puzzle of Ethics. 1st edition. London. Font/HarperCollins. p 17.[8] Yokomoto, C. F and Bostwick, W. D (1999). Modelling: the process of writingmeasureable outcomes for Ec 2000. ASEE/IEEE Proceedings Frontiers in EducationConference, 2B-1, 18-22.[9] Bloom B et al (eds) (1956

Conference Session

Innovative Pedagogies for Facilitating Student-driven Learning Experiences

Collection

2017 ASEE Annual Conference & Exposition

Authors

Steven Kurtis Younkin, Iowa State University; Peter T. Savolainen, Iowa State University

Tagged Divisions

Civil Engineering

-learning 4.01 4.20 4.49 4.56 4.34 Critical thinking 4.21 4.38 4.19 4.40 4.31 Ethical judgment 3.95 4.15 3.98 3.99 4.01 Innovation/creativity 3.69 3.81 3.68 3.71 3.73 Technical writing 3.55 3.46 3.83 3.46 3.55 Technical presentations 3.29 3.01 3.39 2.94 3.11 Management skills 3.16 3.19 2.94 2.83 3.00 State Local National Local Skill/Qualification

Conference Session

Architectural Division Technical Session 2

Collection

2017 ASEE Annual Conference & Exposition

Authors

Charlie Setterfield, Sinclair Community College; Chad R. Bridgman, Sinclair Community College

Tagged Topics

Diversity

Tagged Divisions

Architectural

efforts. This support of student internships is critical, as thenational trend is for increased student participation in internship or cooperative educationprograms. “In 1980, about one out of every 36 college students completed an internship prior tograduation. This increased to three out of four by the year 2000.” (Hurst 58)Prior to fall 2014, most divisional internship and co-op records were paper based. Work isunderway to streamline recordkeeping through the use of electronic databases. This has alloweddepartments to better evaluate student and employer success. The following graphs representemployer feedback for the following questions: 1. Did the internship student recognize professional, ethical and societal responsibilities