Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Meg Krudysz, City College of New York; Ann Wittig P.E., City College of the City University of New York

Tagged Divisions

Multidisciplinary Engineering

information informs the program’s continuousimprovement practices. Progress towards meeting SOs is typically assessed by having facultystrategize, collect and evaluate data that document student performance. While there are noparticular requirements regarding data quality, the data should be of high enough quality (i.e.,consistent, complete, statistically significant) to demonstrate achievement of SOs and thedevelopment of continuous improvement plans. Generally, directly acquired data are morecommon2 than indirectly acquired data, and are also considered to be better indicators ofperformance.Progress towards meeting SOs is generally assessed through several steps. First, direct andindirect evidence of student performance is identified, usually by

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Richard Stansbury, Embry-Riddle Aeronautical University, Daytona Beach; Massood Towhidnejad, Embry-Riddle Aeronautical University, Daytona Beach; Jayson F. Clifford; Michael P. Dop, Embry-Riddle Aeronautical University

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

disadvantages of modified process are discussed.We hope this paper serves as a guideline for course instructors who are considering going agilefor a capstone design course for computer engineers, software engineers, or multi-disciplinaryteams.Crystal Clear ProcessCrystal Clear is designed specifically to work with small to medium sized teams. Some of theproperties of this process include: frequent delivery via 2–4 week iterations; processimprovement via reflection workshops at the end of each iteration; osmotic communication byco-locating teams, and utilizing charts and boards to share information; personal safety; focusthrough a flexible plan that identifies fixed deliverables per iteration; and a technicalenvironment capable of supporting automated

Conference Session

Multidisciplinary Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Don E. Malzahn, Wichita State University; Lawrence E. Whitman, Wichita State University; Zulma Toro-Ramos, Wichita State University

Tagged Divisions

Multidisciplinary Engineering

and discuss the issues. This isintended to build a vocabulary of leadership concepts that directly relates to their currentcognitive and affective structures. Additionally there are several team lead workshops (10)designed to develop team management skills for the whole class (group decision making,presentations, conflict resolution, meeting management, and project planning and scheduling,etc.). Each of these experiences and activities is examined at the immediate and direct level thenviewed “from the balcony” for analysis.Multiple direct and indirect assessments of leadership development and skill mastery are used.These include detailed peer assessments using the new leadership vocabularies, progress inpersonal skill development, written

Conference Session

Multidisciplinary Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ahmed Cherif Megri, University of Wyoming

Tagged Divisions

Multidisciplinary Engineering

elements of other engineering disciplines,including mechanical, electrical, fire protection, and others. The architectural engineers areresponsible for the different systems within a building, structure, or complex.Architectural engineers focus several areas, including: the structural integrity of buildings; thedesign and analysis of heating, ventilating and air conditioning systems; efficiency and design ofplumbing, safety and fire protection and electrical systems; acoustic and lighting planning, andenergy conservation.In this paper, our objective is to introduce the new curriculum at University of Wyoming thatfocuses on several disciplines: HVAC systems design, energy, plumbing, fire protection andbuilding electricity. This multidisciplinary

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Barbara A. Masi, Massachusetts Institute of Technology; Shanette A. Go; E. Hosoi, Massachusetts Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

Page 22.1214.5integrating engineering and liberal arts. Such degrees are intended for students who plan topursue careers in technology management, technology law, policy, or government. In curricularcontent, students complete a sufficient number of engineering fundamentals subjects to providethem with grounding in engineering. Students can choose to complete subjects in technology andsociety, policy, prelaw, or engineering management as well. Often students also completesubjects in a given technology area of national focus, such as environmental management,transportation, or energy—these combine engineering, law, policy, or management. LafayetteCollege, Dartmouth College, and Columbia University are examples of schools that offer

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Barbara A Masi, Massachusetts Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

on student ability development and career paths. An undergraduatesurvey was distributed to freshmen and again to seniors. Students were also asked to report theirlevel of confidence in their engineering, science, professional and integrative disciplinaryabilities used in complex problem solving as well as career plans at each point in time. Inaddition, seniors were asked about their participation in global initiative activities includinginitiative choice, type of activities, length of participation, and motivations for choice. Thosewho engaged in exploration of a global initiative area reported higher self-efficacy forintegrative disciplinary and professional ability factors than non-explorers. Significantdifferences were also noted for

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Brittany Lynn Luken, Georgia Institute of Technology; Susan L. Hotle, Georgia Institute of Technology; Meltem Alemdar, Georgia Institute of Technology; Laurie Anne Garrow, Georgia Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

, she has used a variety of evaluation methods, ranging from multi-level evaluation plans designed to assess pro- gram impact to monitoring plans designed to facilitate program improvement. Dr. Alemdar’s leadership evaluation work includes serving as lead evaluator on NASA’s electronic Professional Development Net- work (ePDN), a new initiative dedicated to preparing teachers to engage their students in STEM (science, technology, engineering and mathematics) fields through the use of NASA-developed learning materials and resources. She also serves as the lead evaluator on several NSF funded Noyce Scholarship programs. She has direct experience leading evaluation of STEM programs and has contributed to evaluations of

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Richard W. Freeman, U.S. Coast Guard Academy; Richard J. Hartnett P.E., U.S. Coast Guard Academy

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

include turning a 2-wheel drivevehicle into all wheel drive and silent (no engine) drivability. The current project plan is todesign and build a full-scale prototype system. Major system components include energycapture, energy storage and energy delivery as well as braking and acceleration control systemsand a rudimentary anti-lock brake system.Cadets from Civil and Mechanical Engineering are collaborating as a capstone team with twoElectrical Engineering cadets who are collaborating with them via a directed study. The amountof collaboration required for this grant is a major departure from past years. In this pilot, thereare three Faculty Advisors, representing the three majors and a senior faculty membersupervising the entire project. Issues

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Keith G. Sheppard, Stevens Institute of Technology; John A Nastasi, Stevens Institute of Technology; Eirik Hole, Stevens Institute of Technology; Peter L. Russell, Stevens Institute of Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

SECompetency Areas of DoD known as SPDRE-SE/PSE7, which means Systems Planning,Research, Development and Engineering (SPRDE) – Systems Engineering (SE) and ProgramSystems Engineer (PSE) and shown in Appendix A. This was developed for the defenseacquisition community and is one of a number of such competency models that have beendeveloped in the SE domain. They are used for workforce development and education. The SECapstone project goals listed below have the numbers of relevant competencies from AppendixA noted: Identify the needs and objectives of key stakeholders including the operational and life-cycle context, and how these shape and set the scope for the development program (2, 4, 5). Demonstrate recognition that the value of a system

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Radu F. Babiceanu, University of Arkansas, Little Rock; Daniel Rucker, University of Arkansas, Little Rock; Hussain M Al-Rizzo, University of Arkansas, Little Rock; Seshadri Mohan, University of Arkansas, Little Rock

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

. • Provide better customer service to the passengers by providing better flight information displays with accurate information. • Develop management reports to track real time cost of enplaned passengers either by airline or by total for the airport. • Develop a runway utilization report by type of aircraft that uses the runway and frequency of use to better plan maintenance and predict the maintenance expenses.3.3. Technical Solution. In response to the LIT RFP and considering the identified limitationsand potential avenues for improvement of LIT airport operations, the solution proposed by thesystems engineering capstone design team is an automated system, called Automated AirportInformation Management System (AAIMS

Conference Session

Multidisciplinary Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ahmed Cherif Megri, University of Wyoming

Tagged Divisions

Multidisciplinary Engineering

or other catastrophes related to public health and safety.The testing is how the students' project will be used by the Chicago Fire Department.This model includes streets, buildings and other detailed information that will help theChicago Fire Department in planning interventions, considering various scenarios andcase studies.The model has been built in phases, with the overall design incorporating a sophisticated,computer-driven illumination scheme built within the model base, thus allowing themodel to be able to display animated scenarios of virtually any depth and focus, by meansof time-varying color and brightness. CAD Computer-generated images and laser-cuttingmethods have been the primary methods of design and construction for the

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Karinna M. Vernaza, Gannon University; Theresa Vitolo, Gannon University; Scott Steinbrink, Gannon University; Barry J. Brinkman, Gannon University

Tagged Divisions

Multidisciplinary Engineering

. Objective 3: Provide a program of academic and student service support that achieves a 90% year-to-year retention rate for SEECS scholars. Objective 4: Provide scholars with academic and professional development that prepares Page 22.1274.3 them for graduate school and/or employment in a STEM field.The sections which follow present original plans for meeting the goals and objectives, discusshow the plans were implemented, indicate any modifications to the original plans, and outlinework which remains to be completed.2 Recruitment of FreshmanThe first cohort of scholars was targeted for the 2009 -2010 academic year. It was

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Richard Stansbury, Embry-Riddle Aeronautical University, Daytona Beach; Massood Towhidnejad, Embry-Riddle Aeronautical University, Daytona Beach

Tagged Divisions

Multidisciplinary Engineering

activities for capstone design course. Activity Time FrameProblem statement and initial research Late August – Early-SeptemberRequirements Elicitation SeptemberRequirements Inspection Late September – Early OctoberInitial Design and planning OctoberPrototyping and initial implementation November – Mid-DecemberDesign review Mid-DecemberProduct Implementation January – Mid-AprilWrap-up AprilFinal presentation Late AprilFollowing this timeline, students generate a large number of

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Scott P. Schaffer, Purdue University; Margaret Huyck, Illinois Institute of Technology; William C. Oakes, Purdue University, West Lafayette; Daniel Gandara, Illinois Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

composition, disciplinary diversity seems to be associated with lower levels of improvement in individual CDTL efficacy, while gender diversity has a marginally significant positive association with improvement in CDTL efficacy. c. Finally, individuals working in teams with higher levels of intra-team learning behaviors reported higher levels of improvement.The above results are tentative as we have a fairly small sample size: 112 individuals nestedwithin 31 teams. In addition to increasing sample size, we plan to link CDTL efficacy toimportant individual and team outcomes with a view to assess the extent to which CDTLefficacy matters within multidisciplinary teams.Furthermore, a 20-item Cross

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

David R. Jacques, Air Force Institute of Technology; John M. Colombi, Air Force Institute of Technology; Richard G. Cobb, Air Force Institute of Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

Page 22.7.2the US workforce in general. Within the DoD, jobs associated with capability planning andrequirements definition, as well as much of the studies and analysis efforts that support pre-acquisition decision making, are typically not counted as part of the acquisition workforce, butthey often require individuals with STEM proficiencies. Within the STEM career fields, theDoD has singled out Systems Engineering (SE) as a critical need in order to improve the abilityto conceive , develop, sustain, modify and eventually retire its’ warfighting systems. Thosepersonnel identified as occupying critical positions (typically those in the acquisition workforce)receive training and certification on SE through a series of Defense Acquisition

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Colin J. Neill, Pennsylvania State University, Great Valley; Joanna F. DeFranco, Pennsylvania State University

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

)on learning has been designed. The subjects collaboratively solved an analysis and designproblem in a graduate engineering course. In previous experiments, we showed the benefits ofthe CCM in improving engineering team performance and investigated the mechanisms thatfacilitate this improvement.The CCM is a six-stage cognitive model that takes into consideration the cognitive and socialactivities that occur during collaborative problem solving by facilitating problem formulation,solution planning, and system design tasks during collaboration. While facilitating collaborationwithin teams has long been seen as advantageous, the CCM model prescribes tactics to employto ensure that collaboration is effective.In the first two experiments we showed

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Maher E. Rizkalla, Indiana University Purdue University, Indianapolis, Integrated Nanosystems Development Institute; Mangilal Agarwal, Indiana University Purdue University, Indianapolis ; Sudhir Shrestha, Indiana University Purdue University, Indianapolis; Kody Varahramyan, Indiana University Purdue University, Indianapolis

Tagged Divisions

Multidisciplinary Engineering

students are introduced early in thecareer to plan for a coherent nanotechnology program. The paper summarizes briefly the newnanotechnology program and the initial outcomes. Page 22.925.2*This program is partially funded by NSF NUE program grant number NSF1042110. 2. Nanotechnology TrackIUPUI started a new B.S. program that will establish a new, dynamic academic and research-based nanotechnology track in engineering. The Integrating Nanotechnology in EngineeringCurriculum program (the IUPUI “INEC”) defined by this new nanotechnology track is integratedinto the established degrees of the Bachelor of Science in Electrical and Computer Engineering(ECE

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Kristen Osterwood, University of Pittsburgh; Amy E. Landis, University of Pittsburgh; Jason Douglas Monnell, University of Pittsburgh; Chris Koch, GTECH Strategies; Maureen Copeland, GTECH Strategies

Tagged Divisions

Multidisciplinary Engineering

Page 22.1284.4basic information and expectations before volunteer days so that all volunteers arrive prepared.This preparatory information includes respect towards all persons, safety with machinery andlandscape, appropriate dress for the work and varied weather conditions. When organizingvolunteer days, it is important to ensure that the amount and level of work that is planned for theday is appropriately matched with the number and capability of volunteers (e.g. something easyfor younger kids, or something more involved for older ones). Some backup work is alwaysplanned, in the event that the group works quicker than expected or more volunteers show. It iseasier to decide to do less than planned than it is to come up with extra tasks during

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Kenneth Reid, Ohio Northern University; Susan M. Montenery, Ohio Northern University; Courtney M. Hetrick, Ohio Northern University

Tagged Divisions

Multidisciplinary Engineering

Electrical orComputer Engineering) or a Biomedical Sciences minor (through Mechanical Engineering) 1;both options offer students an opportunity to take coursework and some laboratory work in thebiomedical area well into their plan of study. Implementing a full scale biomedical engineeringprogram is not feasible without significant additional recourses or an affiliated medical school.There is little opportunity to work in a laboratory setting on projects related to biomedicalengineering in the first year of study, as is the case for most if not all engineering programs.Engineering faculty met with faculty from the Department of Nursing while pursuingopportunities for undergraduate student research projects and, together, an undergraduateresearch and

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Elisabeth W. McGrath, Stevens Institute of Technology; Susan Lowes, Institute for Learning Technologies, Teachers College/Columbia University; Chris Jurado, Stevens Institute of Technology; Alice F. Squires, Stevens Institute of Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

StevensInstitute of Technology), these 14 institutions are piloting methods, materials, and approaches tocreate new courses or enhance existing courses to embed, infuse, and augment SE knowledge, asdefined by the Systems Planning, Research Development, and Engineering (SPRDE)-SE andProgram Systems Engineer (PSE) competency model, known as the SPRDE-SE/PSECompetency Model, among undergraduate and graduate students. Participating universityfaculty developed new course materials and other methods and strategies to recruit and providesubstantive SE learning experiences; increase exposure to authentic DoD problems, such as low-cost, low-power computing devices, expeditionary assistance kits, expeditionary housingsystems, and immersive training

Conference Session

Multidisciplinary Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Waddah Akili, Iowa State University

Tagged Divisions

Multidisciplinary Engineering

lecturedominant pattern, when cooperative learning protocols are deployed. The paper shows howcooperative learning can advance academic success, quality of relationships, psychologicaladjustments, and attitudes toward the college experience. A number of relevant questions docome to mind, including: What needs to be done to move the process forward? What are the keycomponents of successful deployment of active learning in general and cooperative learning inparticular? How to foster and expand the community of engineering faculty who decide to usecooperative learning? What plans and resources need to be mobilized to institutionalizepedagogies of engagement including cooperative learning, at the department or college level?Achieving the change needed in

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Salah Badjou, Wentworth Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

program that is competitive with other biomedical engineering programs offered inMassachusetts. Effectively, this further integrates the electromechanical engineering program byincorporating the important biological dimension. The program has attracted a substantialnumber of students, and has expanded opportunities for our graduates. The ElectromechanicalEngineering Faculty Committee3 composed of eleven faculty members drawn from variousdisciplines, thoroughly researched, planned, and obtained administrative approval for theprogram, implemented, and is continuously assessing and fine-tuning this novel concentration.The endeavor was very much faculty driven. The faculty exercised care so that the addition ofthe new concentration did not alter or

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Steven Corns, Missouri University of Science and Technology; Cihan H. Dagli, Missouri University of Science and Technology; Ivan G. Guardiola, Missouri University of Science and Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

details of theirparticular engineering disciplines. In addition, as most of the undergraduate students weremechanical engineering majors, the instructor for the first course was able to use his backgroundin mechanical engineering to provide relatable examples to the students. One of the main difficulties with teaching this course was the pace at which the course Page 22.1279.9started to move. Although we had planned for a fast paced course, it was still a faster thananticipated and additional contingencies would have been helpful when the students moved intothe higher detail design work. A high level overview of the systems engineering

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Magdalini Z. Lagoudas, Texas A&M University; Bugrahan Yalvac, Texas A&M University

Tagged Divisions

Multidisciplinary Engineering

participants in the 2009 SEI program, eleven (11) of them indicated that they got interested in space industry because of their involvement with the SEI program activities. Below are some excerpts students provided: SEI has most definitely influenced my plans. I thought about the space industry before coming to college, but I wasn't sure if it would be of interest to me. However, after my experiences in the SEI program, the space industry has become one of my top industry choices to possible work in. SEI has shown me how many different opportunities the space industry has. SEI has provided me with the opportunity to learn more about the space industry and what it takes to

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Gül E. Okudan Kremer, Pennsylvania State University, University Park; Mike Murphy, Dublin Institute of Technology; Brian Bowe, Dublin Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

these existing assessment tools is that they have been developed basedon different frameworks, and hence, the integration of non-consistent assessment tools into anoverall program assessment is challenging. Beard et al.7 suggest that an assessment plan toevaluate curricular efforts to integrate professional skills into programs should includestandardized rubrics.Beyond the studies that focused on assessment of individual skills (e.g., teamwork), a few recentstudies proposed more comprehensive assessment tools targeting a larger set of professionalskills. For example, Huyk et al.23 studied engineering students enrolled in multi-disciplinaryproject team courses to investigate the impact of reflections on the service learning and otherproject

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

James A. Nemes, Pennsylvania State University, Great Valley; Kirsten S. Hochstedt, Penn State University; Mary Lynn Brannon, Pennsylvania State University, University Park; Elizabeth C. Kisenwether, Pennsylvania State University, University Park; Robert M. Capuro, Pennslyvania State University; Sven G. Bilen, Pennsylvania State University, University Park

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

Educator Award. In January 2010, Liz stepped down as Director of the E- SHIP Minor to help define expansion plans for undergraduate entrepreneurship education across Penn State. Liz is co-Director of the Lion Launch Pad, a new student-centric on-campus business incubator. Liz is also involved in NSF-funded research, supporting both PFI and IEECI grants, and is the incoming Program Chair for the ASEE Entrepreneurship Division (2010-2011). Since 2006, Liz has been involved in developing the ASME Innovation Showcase (I-Show), which pro- vides a platform for top collegiate student teams to compete for seed money and attend 4-day business start-up workshops with the goal to commercialize their product idea. In the three I

Conference Session

Multidisciplinary Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

C.S. Chen, Miami University; Steven Elliott, Miami University, Department of Economics; Mark Boardman, Miami University

Tagged Divisions

Multidisciplinary Engineering

how do design a course from the ground upwith a goal not only of creating a high quality learning experience for the students, but to do sowith an eye towards the goal of meaningful assessment. As it turns out, the class is reasonablywell planned out in terms of leaning objectives and outcomes that feed into and support those Page 22.192.14objectives. Our challenge into the future is to more carefully document and asses this process.Fortunately a number of institutional resources exist and to which we have access to address thisimportant goal. In essences what is a serious shortcoming currently is easy to address.Another series of lessons

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Catherine Skokan, Colorado School of Mines

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

completed a post-test atthe end of the semester. This provided a baseline for comparison with the proposed hybridoffering. The plan was to repeat the process with the 2009 offering of Senior Design I.However, the portions of the lectures were to be presented on-line using Blackboard.Introductory course material, team oral presentations and guest speakers would continue to useclass time. At the end of the semester, a post-test of the hybrid model would again beadministered. A comparison between the growth from the 2008/2009 group and the 2009/2010group could show the effectiveness of a hybrid class that could replace much of the lectureportion of senior design. Even though there was a difference in the number of lecture topics inthe two semesters

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Lisa R. Lattuca, Pennsylvania State University, University Park; Lois Calian Trautvetter, Northwestern University; Sarah L. Codd, Montana State University; David B. Knight, Pennsylvania State University, University Park; Carla M. Cortes, Northwestern University

Tagged Divisions

Multidisciplinary Engineering

. Page 22.1711.14A respect for disciplines outside engineering and interdisciplinary connections is furtherencouraged by the requirement that all HMC students plan a coherent program of study ingeneral education with the assistance of a humanities and social science advisor. The goal of thisrequirement, according to HMC’s 2003 Self Study, is to help students develop “breadth in aseries of courses from different [humanities and social sciences] disciplines and depth in aconcentration of courses in a single discipline [outside their field of study]” (p. 11).Cumulatively, the humanities and social sciences requirements comprise about one-third of aHMC student’s course work.At MIT, like Harvey Mudd, the college-wide general education curriculum also

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Matthew Dettman P.E., Western Kentucky University; Walter L. Collett, Western Kentucky University

Tagged Divisions

Multidisciplinary Engineering

planning must be used to find the best places for these types of opportunities to beintroduced into the curriculum to enhance the educational experience of the student withoutjeopardizing any of the existing university constraints.Efforts are being made to find commonalities in certain courses across all 3 programs to expandopportunities for cross disciplinary activities. For example, all 3 programs have a 2 credit hourcourse titled Freshman Experience. In this course, they are introduced to the engineeringprofession, taught study skills, computer skills, and engage in various project based activities tospark their creative engineering minds. Up until the Fall 2010 semester, each of the 3 programshad their own Freshman Experience course so all of