Conference Session

Collaborations, Accreditation and Articulation Issues for International Engineering Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Morteza Sadat-Hossieny, Northern Kentucky University; Elizabeth Leibach, Northern Kentucky University

Tagged Divisions

International

Education Abroad, the Office of International Students and Scholar,and the Office of American English Language Programs. There are five different programsprovided under the Office of Education Aboard. These programs are: 1) Academic Exchanges,2)Short-Term Programs, 3) Cooperative Center for Study Abroad, 4)Kentucky institute forInternational Studies, and 5) International Student Teaching Program.5NKU offers two TAC-ABET accredited bachelor degree programs in Mechanical andManufacturing Engineering Technology. One of the university visions for growth is theinternationalization of the campus. The International Center at NKU has a mission to: “Develop and promote global perspectives through engagement in the international arena and to

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Shanna R. Daly, University of Michigan; Harvey Bell, University of Michigan; Brian E. Gilchrist, University of Michigan; Gail Susan Hohner, University of Michigan, College of Engineering; James Paul Holloway, University of Michigan

Tagged Divisions

Multidisciplinary Engineering

AC 2011-2472: MAKING A COLLEGE-LEVEL MULTIDISCIPLINARYDESIGN PROGRAM EFFECTIVE AND UNDERSTANDING THE OUT-COMESShanna R. Daly, University of Michigan Shanna Daly is an Assistant Research Scientist in the College of Engineering and the Design Science Pro- gram at the University of Michigan. Her research focuses on teaching and learning design and innovation strategies in interdisciplinary contexts.A. Harvey Bell, University of Michigan . Harvey Bell, IV was appointed Professor of Engineering Practice and Co-Director of the Multidisci- plinary Design Program on September 1, 2010 after a 39 year career in the automotive industry with General Motors. During his career with General Motors some of his significant positions

Conference Session

Recruitment & Retention of Women II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Mary R. Anderson-Rowland, Arizona State University; Armando A. Rodriguez, Arizona State University; Anita Grierson, Arizona State University

Tagged Divisions

Women in Engineering

wrong. In many cases, the student doesn‟t realize that they need the helpthat is available with advising. Proactive steps must be taken to get the information to thestudent.“Intrusive Advising, defined by the work of Robert Glennen, takes developmental advisingtheory one step further. Intrusive advising is proactive. Programs utilizing intrusive advisingbuild structures that incorporate intervention strategies mandating advising contacts for studentswho otherwise might not seek advising.” 1 Links to many articles about “intrusive advising” canbe found at this source. Sharon Holmes, Iowa State University, describes “Intrusive Advising”as a model for retention. She points out that “many student support programs are designed basedupon the

Conference Session

Making Elementary Engineering Work: Lessons from Partnerships and Practice

Collection

2011 ASEE Annual Conference & Exposition

Authors

Elizabeth A. Parry, North Carolina State University

Tagged Divisions

K-12 & Pre-College Engineering

appropriation, the author is able to offer low or nocost professional development workshops on EiE to teachers, administrators, specialists andothers from districts around the state and region. Four elementary schools have adoptedengineering design as the curriculum integrator and every child and teacher participates. Thedemographic profiles of these schools vary.Figure 1: Whole School Implementation ProfilesSchool Location Number Student Demographic Year of Information Implemented StudentsRachel Freeman Wilmington, 348 Primarily African American Fall, 2007School of North

Conference Session

Making Elementary Engineering Work: Lessons from Partnerships and Practice

Collection

2011 ASEE Annual Conference & Exposition

Authors

Christine M. Cunningham, Museum of Science

Tagged Divisions

K-12 & Pre-College Engineering

are knowledgeable about or comfortableteaching—into an already-packed elementary curriculum can present challenges. This paper willdraw upon the experiences of educators at the Museum of Science, Boston who have beensupporting the implementation of elementary engineering for over seven years. Specifically itwill address how the Museum of Science has engaged in three kinds of partnerships fostered byEiE that have enabled the development and dissemination of the program—partnershipsassociated with (1) development and testing of resources, (2) building teacher capacity, and (3)fostering national dissemination and advocacy. It briefly describes the goals of thesepartnerships, the roles that partners can play, sets forth some characteristics of

Conference Session

Making Elementary Engineering Work: Lessons from Partnerships and Practice

Collection

2011 ASEE Annual Conference & Exposition

Authors

Pamela S. Lottero-Perdue, Towson University

Tagged Divisions

K-12 & Pre-College Engineering

1stthrough 5th grades to all children in HCPS by 2012-2013 (Table 1). HCPS is a countywidedistrict in Maryland, having a total of approximately 40,000 P-12 students, with about 15,000 ingrades 1 through 5. The STE units, discussed in more detail in the third section of this paper, areblends of modified district science and EiE units, and take approximately 12 to 14 hours ofinstructional time. The project is currently in its second full year (2010-2011), which is the fullimplementation year for 3rd and 4th grades, and the pilot year for 1st and 2nd grades. Of the 33 elementary schools in HCPS, 8 have participated as pilot schools. Pilot schoolsare where each STE unit within the SySTEmic Project is taught one year prior to fullimplementation

Conference Session

Making Elementary Engineering Work: Lessons from Partnerships and Practice

Collection

2011 ASEE Annual Conference & Exposition

Authors

Elisabeth W. McGrath, Stevens Institute of Technology; Carol Shields, Stevens Institute of Technology; Augusto Z. Macalalag Jr., Stevens Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

Page 22.1036.2mainstream K-12 education, not merely as an elective or extracurricular activity. We haveposited that engineering: (1) presents opportunities for students to acquire critical 21st centuryskills, such as problem-solving, creativity, innovation, and teamwork; (2) provides relevantproblems and contexts which will motivate students to more deeply learn and apply science andmathematics; (3) promotes habits of mind, such as analytical thinking, that can be applied acrossa variety of problems, disciplines, and contexts; and (4) is a misunderstood and little-knowncareer path that provides opportunities for intellectually and financially rewarding careers thatcan help society and improve quality of life.The 2010 report Strengthening STEM

Conference Session

The Best of Design in Engineering

Collection

2011 ASEE Annual Conference & Exposition

Authors

Eckehard Doerry, Northern Arizona University; Bridget N. Bero, Northern Arizona University

Tagged Divisions

Design in Engineering Education

function at many levels, rangingfrom product conceptualization, to risk and market analysis, to client interaction, to projectmanagement [1]. Many engineering programs have responded to this need by incorporatinginterdisciplinary design experiences into their core curricula [2-4].Our own institution, Northern Arizona University, has been a leader in this area, introducing aninnovative interdisciplinary curriculum spanning all engineering disciplines in the mid 1990s [5-8]. The Design4Practice program consists of a sequence of four design courses of increasingcomplexity, one in each year of the four-year engineering curriculum, that are required for allengineering majors. All courses are project- and team-based, with student teams workingtogether

Conference Session

Learning From Experts

Collection

2011 ASEE Annual Conference & Exposition

Authors

Alejandra J. Magana, Purdue University, West Lafayette; Ruth A. Streveler, Purdue University, West Lafayette; Natalie Barrett, Purdue University

Tagged Divisions

Educational Research and Methods

challenge of producing the trained scientists,engineers and technicians that will be needed to fuel the nanoscience revolution.Instructors of nanoscience and engineering will need to combine both content knowledgeand effective pedagogical methods to create effective curricula. The objectives of thisstudy are to begin to identify the (1) content knowledge and (2) pedagogical contentknowledge (PCK) of experienced researchers and instructors in nanoscale science andengineering. It is hoped that these results can be used to inform curriculum design innanoscience and technology. Our participants were seven senior researchers at a largeMidwestern university. We employed qualitative research methods to identify theconcepts, ideas, and ways of thinking for

Conference Session

NSF Grantees Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Mukasa E. Ssemakula, Wayne State University; Celestine Chukwuemeka Aguwa, Wayne State University; Darin Ellis, Wayne State University; Kyoung-Yun Kim, Wayne State University; Gene Liao, Wayne State University; Shlomo S. Sawilowsky, Wayne State University

Tagged Topics

NSF Grantees

development of a hands-onapproach to manufacturing education. This offers students skills that directly prepare them forcareers in manufacturing, design and product realization. Four knowledge areas withcorresponding detailed learning outcomes were identified for study namely: (1) drafting/design,(2) manufacturing process, (3) process engineering, and (4) CAD/CAM. Based on these, a corecurriculum shared between the partner institutions was developed. This encapsulates the MILLmanufacturing competency model. Assessment instruments to measure student learning werealso developed. Sample test items were developed for all competencies in a series of internalmeetings held among MILL Project staff. The preliminary results from a field test indicate

Conference Session

State of Manufacturing Engineering Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Karen Wosczyna-Birch, CT College of Technology and the Regional Center for Next Generation Manufacturing; Wesley Francillon; Robert W. Simoneau, Keene State College

Tagged Divisions

Manufacturing

for recruiting2. The COT-RCNGM expos market to students to consider the community colleges pathway as a gateway tocareers in STEM and high education particularly for academically, economically and sociallydisadvantaged students.Research indicates that there are many other marketing activities at different high schools,community colleges and universities throughout the United States. Based on the motivatingrationale, the marketing or outreach activities may be categorized by a common theme and anapproach. Table 1, summarizes the motivation for outreach, common themes for outreach andcommon approaches3-7. Some of the common themes for outreach are: active learning throughhands on activities, inquiry-based learning, curriculum supplements and

Conference Session

Innovations in Teaching Physics or Engineering Physics II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Yumin Zhang, Southeast Missouri State University

Tagged Divisions

Engineering Physics & Physics

states. Following this formula, eachmagnetic dipole or each capacitor can only record 1 bit of information, while each base pair inDNA can record 2 bits of information.Towards the end of the semester, students were required to write a term paper on the applicationof entropy in different areas. The students investigated many interesting topics, such as steamengines, chemical processes, biological systems, neural networks in brain, the birth and death ofstars, black holes, global warming, economics and social organizations, etc. Through this termpaper students expanded their perspective and realized that entropy is a very general conceptwhich may be applied to many seemingly unrelated areas.IV. AssessmentTwo years ago the author taught this course

Conference Session

Educating Students for the 21st Century: History, Reflection, and Outcomes

Collection

2011 ASEE Annual Conference & Exposition

Authors

Mani Mina, Iowa State University; Eugene Rutz, University of Cincinnati; Iraj Omidvar

Tagged Divisions

Cooperative & Experiential Education

students’ approachesto learning, perspectives of engineering classes, and understanding of engineering education. Theassumed master apprentice model is identified, examined, and discussed. The validity of theoriginal is discussed for continued engineering education. Guidelines, possibilities andapproaches are proposed for institutions to follow to make the engineering school truepedagogical environments that are needed to mentor, train, and educate the students on the nextcentury.References1. Dekker, D.L. “Engineering design processes, problem solving and creativity,” Proceedings Frontiers inEducation Conference, Vol. 1 , 1-4 Nov 1995, pp. 3a5.16 -3a5.19 vol.12. Yokomoto, C.F,; Voltmer, D.R,; Ware, R.” Incorporating the “aha!” experience into the

Conference Session

Special Session Celebrating the 10th Anniversary of the MATE International ROV Competition

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jill M. Zande, Marine Advanced Technology Education (MATE) Center

Tagged Divisions

Ocean and Marine

technical reports,poster displays, and engineering presentations that are evaluated by working professionals fromSTEM fields. Through the process of preparing for the events, the students gain technical aswell as troubleshooting, teamwork, project management, and communication skills. Theprogram is a comprehensive “package” of learning that has the added benefit of exposingstudents to ocean-related career opportunities and showing them the pathways to those careers –a critical step to meeting ocean STEM workforce needs.BackgroundA number of prior reports have identified significant problems in educating, recruiting, andretaining U.S. workers for scientific, technological, and operational careers.1, 2, 3, 4, 5, 6, 7, 8 Thelack of appropriately

Conference Session

Certifying Teachers in Engineering or Integrated STEM

Collection

2011 ASEE Annual Conference & Exposition

Authors

Stephen O'Brien, College of New Jersey; Suriza VanderSandt, College of New Jersey; Elizabeth Dianne Johnson, College of New Jersey

Tagged Divisions

K-12 & Pre-College Engineering

/Science/Technology (MST) major is an integrated-STEM major thatrequires substantial content in all four elements of STEM, as well as interdisciplinarycomponents that integrate STEM, and non-STEM, subject matter. A hypothesis that the MSTmajor would exhibit anxiety, self-efficacy and teaching outcome expectation levels that are on-par with the population of K-5 math majors was found to be true, but only after achievingsubstantial improvements through the progression of their curriculum.Introduction:A recent update on the National Academies report “Rise above the Gathering Storm” indicatedthat K-12 students in the USA ranked 48th in the world in terms of math and sciencecapability.[1] Achieving an effective K-12 teacher population is critical to

Conference Session

Certifying Teachers in Engineering or Integrated STEM

Collection

2011 ASEE Annual Conference & Exposition

Authors

Stephen O'Brien, College of New Jersey

Tagged Divisions

K-12 & Pre-College Engineering

“Technology Education/Pre-engineering education” (TE/PreEE)program and has its roots in industrial arts education dating back to the 1930s. More detaileddescriptions of each of these programs have been previously reported.[1-3] Both programsrequire substantial coursework in all four elements of STEM, as well as integrated-STEM(i.e.- how to use multiple STEM elements together in K-12 curriculum/activities). Studentsin both programs also acquire substantial experience in integrating non-STEM subjects withSTEM subjects. In 2006 our department completed a redesign of our “TechnologyEducation” curriculum to integrate more M&S into our Technology & Engineering (T&E)courses, resulting in our current “pre-engineering” curriculum. Even though this

Conference Session

Computers and Software in Teaching Mathmatics

Collection

2011 ASEE Annual Conference & Exposition

Authors

Cheri Shakiban, University of St. Thomas; Michael P. Hennessey, University of St. Thomas

Tagged Divisions

Mathematics

publication. In addition to teaching regular math courses, I also like to create and teach innovative courses such as ”Mathematical symmetry of Southern Spain” and ”Mathematics and Architecture of the Incas in Peru”, which I have taught as study abroad courses several times.Michael P. Hennessey, University of St. Thomas Michael P. Hennessey (Mike) joined the full-time faculty as an Assistant Professor fall semester 2000. He is an expert in machine design, computer-aided-engineering, and in the kinematics, dynamics, and control of mechanical systems, along with related areas of applied mathematics. Presently, he has published 41 technical papers (published or accepted), in journals (9), conferences (31), or magazines (1). In

Conference Session

FPD I: Attacking the Problems of Retention in the First Year

Collection

2011 ASEE Annual Conference & Exposition

Authors

Yvette Pearson Weatherton, University of Texas, Arlington; Andrew P. Kruzic, University of Texas, Arlington; Beth R. Isbell, University of Texas at Arlington; Lynn L. Peterson, University of Texas, Arlington; Carter Tiernan, University of Texas, Arlington; Vu V. Pham, University of Texas at Arlington

Tagged Divisions

First-Year Programs

groups. As of the time of this writing, those datahave not yet been analyzed.FORCES students were asked to evaluate the elements of the program in a survey. The surveyasked the students to rate the degree to which program components such as Jump Start Math,FIG involvement and others were beneficial to them in terms of meeting their intendedobjectives and their usefulness in general. Figure 1 is an excerpt from the survey instrumentshowing questions specific to Jump Start Math and the FIG, the two program elements that arethe focus of this study. A four-point Likert scale with responses ranging from “StronglyDisagree” to “Strongly Agree” was used. There was no “Neutral” response; however “NotApplicable” was added so that the survey could

Conference Session

Innovations in Teaching Physics or Engineering Physics II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jeffrey A. Jalkio, University of Saint Thomas

Tagged Divisions

Engineering Physics & Physics

uniformprobability distribution with a standard deviation =a/3. Uncertainties are propagated in thesame manner as in traditional error analysis6. For a measurement result y based on a set of ndirect measurements xi through a measurement equation y=f(x1..xn), the expanded uncertainty iny is 2 n  f  n 1 n f f Uy  kp     xi 2  2   xi x j Page 22.1048.3 i 1  xi

Conference Session

Materials Experiments, Labs, Demos, and Hands-On Activities

Collection

2011 ASEE Annual Conference & Exposition

Authors

Surendra K. Gupta, Rochester Institute of Technology; Steven John Kosciol, Rochester Institute of Technology

Tagged Divisions

Materials

the torsion test, a torque “T” is appliedto one end of a circular cross-section metallic rod while the other end is held fixed in a stationarygrip. We use a bench-mounted Tinius Olsen 10,000 in-lb Torsion Tester shown in Figure 1. Thetester has a variable speed drive electromechanical loading system with manual controls andLED digital display. We have developed a LabView interface to acquire the torque and gripangular position data using the RS-232 port. Figure 1: Tinius Olsen 10,000 in-lb Torsion TesterThe shear strain “γ” on the surface of the rod is determined by measuring the relative angle oftwist “φG” over a gage length “LG”. The shear strain γ = c * φG / LG where “c” is the radius ofcross-section and φG is in radians

Conference Session

Descriptions of Outreach Programs

Collection

2011 ASEE Annual Conference & Exposition

Authors

Rayshun J. Dorsey, WizKidz Science and Technology Centers, Inc.; Ayanna M. Howard, Georgia Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

observedbenefits.1. Process to engage underserved communities in STEM activitiesLow-income students grow up in poverty and usually attend resource-poor schools. Many growup in environments where nobody they know has attended college. In schools, low expectationsare usually set for this class of students. They are normally tracked into a less demanding highschool curriculum that does not lead to college [1]. A great deal of research has been conducted Page 22.1050.2to identify the characteristics of low-income, first-generation students and the issues they dealwith as they interact with college and university social and learning environments [2,3]. Only47

Conference Session

Innovative Program and Curricular Development

Collection

2011 ASEE Annual Conference & Exposition

Authors

Felicia Chong, Michigan Technological University; Douglas E. Oppliger, Michigan Technological University; Jean Kampe, Michigan Technological University; Valorie Troesch, Michigan Technological University

Tagged Divisions

K-12 & Pre-College Engineering

-centered; it must take placein small groups under the guidance of a tutor; the tutor must function as facilitator or guide;authentic problems are encountered in the learning sequence before other preparation or study;problems are used as tools to acquire the knowledge and skills to solve the problem; and newinformation is acquired through self-directed learning.1 The Buck Institute for Education, whichfocuses on project-based learning, identifies a similar set of essential elements: “organizedaround an open-ended Driving Question or Challenge; creates a need to know essential contentand skills; requires inquiry to learn and/or create something new; requires critical thinking,problem solving, collaboration, and various forms of communication

Conference Session

Engineering Education Research in K-12

Collection

2011 ASEE Annual Conference & Exposition

Authors

Melissa Dyehouse, Purdue University; Heidi A. Diefes-Dux, Purdue University, West Lafayette; Brenda Capobianco, Purdue University

Tagged Divisions

Educational Research and Methods, K-12 & Pre-College Engineering

incorporateengineering into the elementary classroom. Engineering curricula and engineering teacherprofessional development at the elementary level remains a developing area1. It follows thatassessments measuring the impact of such teacher professional development programs, orengineering interventions on students’ engineering design, science, and technology knowledge,have not been widely developed or utilized. For example, the National Academy Engineering(NAE)1 reports that there is a “paucity of data” available to assess the impacts of K-12engineering education on many student outcomes, which “reflects a modest, unsystematic effortto measure, or even define, learning and other outcomes” (p. 154).There is a need for assessments that are developmentally

Conference Session

Computer Science and Information Technology in K-12 Engineering

Collection

2011 ASEE Annual Conference & Exposition

Authors

Anna Victoria Forssen, Colorado School of Mines; Barbara M. Moskal, Colorado School of Mines; Alka R. Harriger, Purdue University, West Lafayette

Tagged Divisions

K-12 & Pre-College Engineering

mathematics and CS has been declining since 1991. While 37.8% of allmathematics and CS degrees in 2008 were awarded to minorities, less than 25% of thesesame degrees were awarded to minority females.1.Additionally, researchers have foundthat compared to male undergraduates, female undergraduates prefer to use lesstechnology in their courses, have weaker skill levels and reduced comfort levels withrespect to data processing, and, in general, are exposed to fewer online courses andcomputers at home.2,3 Compared to non-minority students, minority students are lesslikely to have grown up with a computer at home and often have had fewer online libraryexperiences. Minority students are also less likely to self-identify as being skilled withemail, but are

Conference Session

Simulation and Virtual Instrumentation

Collection

2011 ASEE Annual Conference & Exposition

Authors

Chao Li, Florida A&M University; Antonio J. Soares, Florida A&M University

Tagged Divisions

Engineering Technology

greaterthan or equal to 10Hz).”[1]. This means that jitter is an unwanted phase modulation to the originaldigital signal. The frequency of the change of the phase is defined as “jitter-frequency” as shownin Figure 1. Figure 1 Illustration of jitter and jitter frequency [2]Jitter may deteriorate the transmission performance of a digital circuit. As a result of signaldisplacement from its ideal position in time, errors may be introduced into the digital bit streamat points of signal regenerations. Slips may be introduced into digital signals resulting from Page 22.1054.2either data overflow or depletion in digital equipment

Conference Session

Assessment in Engineering Graphics

Collection

2011 ASEE Annual Conference & Exposition

Authors

Robert A. Chin, East Carolina University

Tagged Divisions

Engineering Design Graphics

. Authors must be able to negotiate the submission, editorial, andpublication process. Reviewers need to continue evaluating manuscripts. Editors need to workwith authors and reviewers with relative ease. However, sustaining a journal’s performance canonly be achieved by the editorial staff with the aid of data and the use of statistics to ascertain itsperformance. While there are numerous applications and performance measures a journal canuse, and many more that online journals can pursue, the focus of this study was to beginmeasuring the performance of the online EDGJ by reporting on the most frequently visitedarticles published by the online EDGJ. Google Analytics (GA) was used to collect the data andto produce the statistics for this study.1, 2

Conference Session

Mechanical Engineering Technology Curriculum

Collection

2011 ASEE Annual Conference & Exposition

Authors

Michael Lobaugh, Pennsylvania State University, Erie; Robert Edwards, Pennsylvania State University, Erie

Tagged Divisions

Engineering Technology

is designed to utilize the informationlearned from these previous courses and design mechatronics systems. Of the four primaryengineering fields listed above (control systems, electrical, computing, mechanical), our studentslack the in depth knowledge of PLCs that an electrical or electronics engineer would haveobtained.The course was developed with both a lecture portion and a lab portion. The lecture meets twicea week for 50 minutes each and the lab portion is once a week for 1 hr and 50 min. The lecturetopics include discussions on the following: Automation Safety and Error Proofing PLCs Input devices (electrical and mechanical) Output devices (electrical and mechanical) Numbering systems

Conference Session

BME Courses and Learning Activities

Collection

2011 ASEE Annual Conference & Exposition

Authors

Weizhao Zhao, University of Miami; Xiping Li; Fabrice Manns, University of Miami

Tagged Divisions

Biomedical

learning gains promisingly. We are continuing the developmentand plan to apply the system to other local institutions for biomedical or other engineeringstudents.IntroductionBiomedical engineering (BME) education, a part of STEM, has developed as an interdisciplinaryengineering training area in the last 30 years. Based on the current ASEE College Profiles12,BME undergraduate enrollment has become one of the most rapidly growing engineering majors(Figure 1 left panel).Figure 1 Left panel: BME undergraduate enrollment has been monotonically increasing from1999 to 2009 and has exceeded 20,000. Right panel: The difference between the number of BMEprograms and the number of online medical imaging teaching materials indicates a potentialdevelopment area

Conference Session

Multidisciplinary Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Renat Letfullin, Rose-Hulman Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

. Page 22.1058.1 c American Society for Engineering Education, 2011 Medical Physics Curriculum for Undergraduate Engineering Students Renat Letfullin 1 and Brent Murphy 2 1 Department of Physics and Optical Engineering, Rose-Hulman Institute of Technology 5500 Wabash Avenue, Terre Haute, IN 47803-3999, USA Phone: 1-812-877-8570; Fax: 1-812-877-8023; E-mail: letfullin@rose-hulman.edu 2 Radiological Technologies University 100 E. Wayne St., South Bend, IN Phone: 1-574-232-2408 ; Fax : 1-574-232-2200 ; E-mail

Conference Session

Aerospace Teaching and Learning I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Maxwell Stuart Reid, Auckland University of Technology

Tagged Divisions

Aerospace

undergraduateengineering programme which would include several responsibilities relevant to engineeringpractice:12 1. Teamwork. 2. Communication. 3. Societal, health, safety, legal and cultural issues. 4. The relationship between engineering and society. 5. Professional ethics. 6. Sustainable development.The curriculum was designed to contain enough theory for engineering students to understandthe concepts of ethics and sustainability, while endeavouring to keep their focus and attentionbefore discussing the ethical and sustainable issues of good engineering design and practice.The content would include: 1. Introduction to the social responsibilities of engineering. 2. Technology and society – the relationship. 3. Social engineering