Conference Session

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

Collection

2011 ASEE Annual Conference & Exposition

Authors

Arturo A Fuentes, University of Texas, Pan American; Horacio Vasquez, University of Texas, Pan American; Robert A. Freeman, University of Texas, Pan American

Tagged Divisions

First-Year Programs

laboratory in topics such as profile of the engineering profession andeducation, systems of units, data presentation and graphing, ethics, and problem solving usingcommon engineering concepts.A description of one of these challenges is presented next to demonstrate the challengedevelopment and implementation process, the developed instructive materials, assessment tools(pre-test and post test), and the preliminary results that were obtained in the implementation ofthe challenges. Similar instruction and assessment tools were developed for each of the otherchallenges in Figure 2. Page 22.471.6 Introduction to ME Objectives M1 M2

Conference Session

Study Abroad, International Exchange Programs, and Student Engagements

Collection

2011 ASEE Annual Conference & Exposition

Authors

Tiago R Forin, Purdue University, West Lafayette

Tagged Divisions

International

Civil Engineers, 2009.11. “NSPE Code of Ethics,” National Society of Professional Engineers, accessed January 1 2011, http://www.nspe.org/Ethics/CodeofEthics/index.html12. Prince, Michael, “Does Active Learning Work? A Review of the Research,” Journal of Engineering Education 93 (2004): 223-23113. Riley, Donna, Engineering and Social Justice. Synthesis Lectures on Engineers, Technology, and Society: Morgan and Claypool Publishers, 2008. Page 22.12.19

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

manner. 5. Ability to use modern computer tools in engineering. 6. Ability to communicate in written, oral, and graphical forms. 7. Ability to work in teams and apply interpersonal skills in engineering contexts. 8. Ability and desire to lay a foundation for continued learning beyond the bachelors’ degree. 9. Awareness of professional issues in engineering practice, including ethical responsibility, safety, the creative enterprise, and loyalty and commitment to the profession. 10. Awareness of contemporary issues in engineering practice, including economic, social, political, and environmental issues and global impactAbility to work in teams appeared to be the most significant skill SEI participants developedafter

Conference Session

Graduate Education and Undergraduate Research in ET

Collection

2011 ASEE Annual Conference & Exposition

Authors

Vladimir Genis, Drexel University; Warren Rosen, Drexel University; Eric Carr, Drexel University; Michael G Mauk P.E., Drexel University; Radian G. Belu, Drexel University; Gerry Marekova, Drexel University

Tagged Divisions

Engineering Technology

presented below.Core Foundation Courses 27.0ET 605 Modern Materials 3.0ET 610 Networks for Industrial Environment 3.0ET 615 Rapid Prototyping 3.0ET 619 Programmable Devices and Systems 3.0ET 620 Microsystems and Microfabrication 3.0ET 725 Sensors and Measurements 3.0ET 732 Modern Energy Conversion Technologies 3.0PRST 503 Ethics for Professionals

Collection

2011 Pacific Southwest Section Meeting

Authors

AJ Almaguer

" responses.  Responses to question 2 indicate that mentors were overconfident about their creative skills  before participation in BEAM. This also indicates that mentors felt that they improved more  than they had anticipated. Responses to question 7 indicate that mentors felt they had  underestimated their leadership skills at the beginning of the semester. The "after" responses  show that mentors gained more confidence as leaders.  Responses to questions 1 and 8 seem to indicate that mentors felt BEAM had little impact on  their analytical skills or standards of professional conduct. The response to question 8 could  have stemmed from the fact that it was poorly worded and incorporated two different  concepts (ethics and professionalism) into one

Conference Session

Thermodynamics, Fluids, and Heat Transfer II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Paul Nicholas van Bloemen Waanders, California Polytechnic State University, San Luis Obispo, Mechanical Engineering; Andrew Kean, California Polytechnic State University; Brian P. Self, California Polytechnic State University, San Luis Obispo

Tagged Divisions

Mechanical Engineering

Conference Session

The CE Profession: Perspectives from the U.S. & Canada

Collection

2011 ASEE Annual Conference & Exposition

Authors

Tanya Kunberger, Florida Gulf Coast University; Steven J. Burian, University of Utah; Whitney A. Lutey, Montana State University; Audra N. Morse, Texas Tech University; Robert O'Neill, Florida Gulf Coast University; Kristen L. Sanford P.E., Lafayette College; Andrea L. Welker, Villanova University

Tagged Divisions

Civil Engineering

certification for those who havealready attained their AC or who have worked in the construction industry for over eight years ofqualifying education and qualifying construction experience with a minimum of two years inupper management positions.9Education and CertificationThe Professional Constructor is an individual who commits to serve the construction industry ina professional and ethical manner and engages in the continued development of his/her skills andeducation to meet increasing industry challenges and changes. The profession of Constructorincludes job titles such as, but not limited to, Project Manager, General Superintendent, ProjectExecutive, Operations Manager, Construction Manager, Chief Executive Officer, etc.11The CMAA program provides

Conference Session

Methods, Techniques, and New Programs in Graduate Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Michele L. Strutz, Purdue University, West Lafayette; James Edwin Cawthorne Jr., Purdue University, West Lafayette; Daniel Michael Ferguson, Purdue University, West Lafayette; Mark T. Carnes, Purdue University, West Lafayette; Matthew W. Ohland, Purdue University, West Lafayette

Tagged Divisions

Graduate Studies

andpractical experiences of focusing on setting objectives and accomplishing goals. This habitus-based focus that the professionally-experienced non-traditional students described wastransferred and utilized in their graduate school experience. Abigail feels strongly about herfocus and compares her level of focus to her peers when she claims, I have a focus probably that a lot of students don‟t have. I know why I‟m here. – AbigailEthan specifically discusses his direction of his research, and from his prior experience, knewthat it involved ethics. He states, I didn‟t have it necessarily formed to the level it was when it got bound into a document as a dissertation, but I had an idea of what I wanted to do for my research

Conference Session

Civil Engineering Education and Workforce Development Challenges

Collection

2011 ASEE Annual Conference & Exposition

Authors

Chris R. Rehmann, Iowa State University; Diane T. Rover, Iowa State University; Mark Laingen, Iowa State University; Steven K. Mickelson, Iowa State University; Thomas J. Brumm, Iowa State University

Tagged Divisions

Civil Engineering

on getting the students to appreciate the complexity arisingfrom the interaction of factors from inside and outside engineering—that is, we aimed to havestudents explain the importance of taking a broad view of a problem and considering feedbackand dynamic behavior. By the end of the sophomore seminar, the students were expected toachieve the following learning objectives: For complex, ill-defined, dynamic problems involving engineering, social, ethical, cultural, environmental, business, and political issues, students will  Identify connections between subsystems with rich pictures  Page

Conference Session

Capstone Design I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Gregg M. Warnick, Brigham Young University; Robert H. Todd, Brigham Young University

Tagged Divisions

Design in Engineering Education

globalization, project management, leadership, ethics, and manufacturing processes. Prior to joining BYU, Gregg worked for Becton Dickinson, a Global Medi- cal Technology Company (1995-2006). In this capacity he worked as a product development engineer, quality engineer, technical lead, business leader and program/project manager managing many differ- ent global projects. Gregg received his PhD in Educational Leadership and Higher Education from the University of Nebraska-Lincoln with a Master of Technology Management degree and a BS in Manufac- turing Engineering Technology, from Brigham Young University. Gregg also is a Professional Associate Instructor for IPS Learning and Stanford University where he teaches the IPS

Conference Session

Developing Young MINDS in Engineering: Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Horacio Vasquez, University of Texas, Pan American; Arturo A. Fuentes, University of Texas, Pan American; Robert A. Freeman, University of Texas, Pan American

Tagged Divisions

Minorities in Engineering

course was developed by STEMfaculty at The University of Texas-Pan American (UTPA) and at South Texas College(STC). This course was implemented for the second time during the summer in 2010 asone of the first ever college courses that qualified junior and senior high school dual-enrollment students take at STC. This new course covers most of the material required inthe Introduction to Engineering course at STC; besides that, challenges with hands-onactivities have been added in order to engage, motivate, and encourage students to pursueSTEM career. Some of the topics studied in this course are engineering professions, datapresentation and graphing, ethics, engineering economics, units and conversions, andrenewable energy. To limit the class time

Conference Session

NSF Grantees Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Christopher W. Swan, Tufts University; John J. Duffy, University of Massachusetts, Lowell; Kurt Paterson, Michigan Technological University; Angela R. Bielefeldt, University of Colorado, Boulder; Olga Pierrakos, James Madison University

Tagged Topics

NSF Grantees

projects, even if not a central theme of the project 10,20,35,43 and ethical responsibility [ABET1] Attitudes toward community Higher CS scores for EWB participants and high for students in service (CS) Engineering for Developing World course 9 Self-efficacy, self-confidence, Confidence in own abilities is enhanced, particularly as students self-esteem achieve success and see the true benefits to a community 26 Critical thinking / scientific Critical thinking gains demonstrated for LTS outside engineering 5,44 reasoning Engineering identity Redefine engineering as a helping profession particularly effective in

Conference Session

Knowing Ourselves: Research on Engineering Education Researchers

Collection

2011 ASEE Annual Conference & Exposition

Authors

Johannes Strobel, Purdue University, West Lafayette; David F. Radcliffe, Purdue University, West Lafayette; Prashant Rajan, Purdue University, West Lafayette; Sadia Nawaz, Purdue University, West Lafayette; Yi Luo, Purdue University; Jea H. Choi, Purdue University; Ji Hyun Yu, Purdue University, West Lafayette

Tagged Divisions

Educational Research and Methods

 education   6.   active  learning   retention   7.   software  engineering  education   diversity   8.   engineering  design   e-­‐learning   9.   engineering   software  engineering   10.   diversity   software  engineering  education   11.   design   engineering  design   12.   women  in  engineering   pedagogy   13.   collaboration   gender   14.   teamwork   computer  science   15.   ethics   tablet

Conference Session

Civil Engineering Education and Workforce Development Challenges

Collection

2011 ASEE Annual Conference & Exposition

Authors

Brock E. Barry, U.S. Military Academy; Kathryn Purchase, U.S. Military Academy; Marc J. Sanborn, U.S. Military Academy

Tagged Divisions

Civil Engineering

AC 2011-452: RIGOROUS EDUCATIONAL RESEARCH IN CIVIL ENGI-NEERING:Brock E. Barry, U.S. Military Academy Dr. Barry is an assistant professor and course director in the Department of Civil & Mechanical Engi- neering at the U.S. Military Academy at West Point. He predominately teaches in the area of engineer- ing mechanics. His current areas of research include professional ethics, economic factors influencing engineering education, identity development, and non-verbal communication. Dr. Barry is a licensed professional engineer with multiple years of consulting experience.Kathryn Purchase, United States Military Academy Major Kathryn Purchase is currently an Instructor in the Department of Civil and Mechanical

Conference Session

Civil Engineering Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

John V. Tocco, Lawrence Technological University; Donald D. Carpenter, Lawrence Technological University

Tagged Divisions

Civil Engineering

AC 2011-2761: RE-ENGINEERING THE CAPSTONE: MELDING AN IN-DUSTRY ORIENTED FRAMEWORK AND THE BOK2John V Tocco, Lawrence Technological UniversityDonald D. Carpenter, Lawrence Technological University Dr. Donald Carpenter is an Associate Professor of Civil Engineering and the Director of Assessment at Lawrence Technological University. Prior to being Director of Assessment, Dr. Carpenter was the Founding Director for the Center of Teaching & Learning at Lawrence Tech where he was responsible for conducting faculty development programs. In addition, Dr. Carpenter actively conducts educational and pedagogical research on teamwork, leadership, and ethical development and is Kern Fellow for En- trepreneurial Education

Conference Session

Innovative College-Industry Partnerships for the Future

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ronald J. Bennett, Univeristy of Saint Thomas; Elaine R. Millam, University of Saint Thomas

Tagged Divisions

College Industry Partnerships

Page 22.1546.4attitudes among their employees.Among the Criterion 3 Program Outcomes, there are six that relate directly to leadership. Theseare: d) an ability to function on multidisciplinary teams f) an understanding of professional and ethical responsibility g) an ability to communicate effectively h) the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context i) a recognition of the need for, and an ability to engage in, life-long learning j) a knowledge of contemporary issuesIndustry needs to articulate the specific competencies it wants in its leaders. Those competenciesneed to be communicated to academic leaders. Just as important

Conference Session

Innovative College-Industry Partnerships for the Future

Collection

2011 ASEE Annual Conference & Exposition

Authors

William C. Oakes, Purdue University, West Lafayette

Tagged Divisions

College Industry Partnerships

can attendfour lab divisions in a day. Corporate representative also participate in the lectures and workshops that are part of theEPICS course. Topics cover design, project management, communication, ethics, customerrelations and community involvement. Finally, corporate partners also provide financial assistance for the materials needed forthe designs. EPICS does not charge the not-for-profits for their products and corporate funding Page 22.1285.7allows this tradition to continue and add needed value to the community.Corporate PerspectivesFour of the corporate advisors, each spending weekly time with the Purdue students as

Conference Session

Technology in the ECE Classroom

Collection

2011 ASEE Annual Conference & Exposition

Authors

David Jakob Fritz, Oklahoma State University; Wira Mulia, Oklahoma State University; Sohum Sohoni, Oklahoma State University; Kerri S. Kearney, Oklahoma State University; Mwarumba Mwavita, Oklahoma State University

Tagged Divisions

Electrical and Computer

generally implemented with students working on team or class wide projects. Thesecourses, especially engineering capstone design courses, are used by universities to satisfy ABETcriteria [1]. All but one of the ABET outcomes can be satisfied with design courses, including: 1. An ability to apply knowledge of mathematics, science, and engineering 2. An ability to design and conduct experiments, as well as to analyze and interpret data 3. 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. 4. An ability to function on multidisciplinary teams 5. An

Conference Session

ABET Accreditation, Assessment, and Program Improvement in ECE

Collection

2011 ASEE Annual Conference & Exposition

Authors

Stephen M. Phillips, Arizona State University; Konstantinos Tsakalis, Arizona State University; Ravi Gorur, Arizona State University; Stephen M. Philips, Arizona State University

Tagged Divisions

Electrical and Computer

that sparks passionate conversations within the academic community. The basic issueslie in assessing the information content of data, their interpretation in terms of actions and thederivation of a quantitative model to connect it all. The complexity of the problem increasesimmensely when one is confronted with (large) statistical variations between action and resultsand the loss of sacred information about the individual when aggregating the data. When theassociated actions reflect on the student’s future career, as is the typical teacher grading problem,the translation of the student knowledge and performance into a single grade presents a modelingas well as an ethical challenge. On the other hand, when the action is to adjust the curriculum

Conference Session

Interdisciplinary Education in Engineering Technology

Collection

2011 ASEE Annual Conference & Exposition

Authors

Joseph F. Kmec, Purdue University; Bryan J. Hubbard, Purdue University, West Lafayette; Martin A Lopez De Bertodano, Purdue University, West Lafayette; Benjamin Revis, Purdue University

Tagged Divisions

Engineering Technology

Applied Thermodynamics Nuclear Inst. & Measurement Electric Power Generation & Transmission Fluid Mechanics Applications Radiation Biology & Safety Nuclear Reactor Theory Engineering Ethics Reactor Engineering Design & Operation Page 22.1502.19 Table 2.0 Bachelors of Science in Applied Science and Technology General Requirements Nuclear Engineering Technology

Conference Session

Mentoring Graduate Students, Diversity, and Assessment

Collection

2011 ASEE Annual Conference & Exposition

Authors

Joy L. Colwell, Purdue University, Calumet; Jana Whittington, Purdue University, Calumet; Carl F. Jenks, Purdue University, Calumet

Tagged Divisions

Graduate Studies, Minorities in Engineering

AC 2011-242: WRITING CHALLENGES FOR GRADUATE STUDENTSIN ENGINEERING AND TECHNOLOGYJoy L Colwell, Purdue University, Calumet (Tech) Joy L. Colwell, J.D., is an Associate Professor of Organizational Leadership and Supervision and Director of Graduate Studies at Purdue University Calumet. She regularly teaches graduate courses in Leadership and Ethics and the Directed MS Project for the MS in Technology program at PUC.Jana Whittington, Purdue University Calumet Jana Whittington has a Ph.D. in education with a specialization in instructional design and online learn- ing. Additionally Jana has a MA in studio art and humanities, BFA in painting, and AA in graphic design. She has taught a variety of courses for 15+ years

Conference Session

Core Concepts, Standards, and Policy in K-12 Engineering Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jenny L. Daugherty, Purdue University; Rodney L. Custer, Illinois State University; Raymond A. Dixon, Illinois State University, CeMaST

Tagged Divisions

K-12 & Pre-College Engineering

Page 22.1508.5the study had to do with engineering ethics and the grounding of engineering within its broadersocial and cultural contexts. Social constructivists (for example, Bijker, Hughes, & Pinch15) notethat engineering activity and outcomes are fundamentally a function of social values, needs, andpriorities. Thus, while ideas such as ethics, values, and social norms are not considered to beengineering concepts, they can serve as essential contexts within which engineering ideas andconcepts take on meaning. Engineering design does not occur within a vacuum. Designoutcomes are a direct reflection of the context within which they were developed. Finally, considerable discussion centered on the viability of an engineering ontology

Conference Session

Project-Based Learning

Collection

2011 ASEE Annual Conference & Exposition

Authors

Oscar G. Nespoli, University of Waterloo; Harry Tempelman, Hitachi Construction Truck Mfg Ltd.; Ryan Spencer; Steve Lambert, University of Waterloo

Tagged Divisions

Design in Engineering Education

study suggests that students who are exposed to enquiry - based learningdevelop early confidence that results in better performance in subsequent years of study [13].Surveys of industry and university alumni consistently point to the importance of design,communication and teamwork skills, but more importantly, students’ ability to make soundjudgments in conditions of technical, commercial and sometimes ethical uncertainty. Industryvalues student learning in rich contexts, and they acknowledge the value of supportingextracurricular student teams.The incorporation of rich, contextual components is desired, but not at the expense ofengineering science fundamentals. This presents a conflict between retaining this essential

Conference Session

Innovative Methods to Teach Engineering to URMs

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jean Kampe, Michigan Technological University; Douglas E. Oppliger, Michigan Technological University

Tagged Divisions

Minorities in Engineering

): 1. Professionalism/Work Ethic (80.3%) 2. Teamwork/Collaboration (74.7%) 3. Oral Communications (70.3%) 4. Ethics/Social Responsibility (63.4%) 5. Critical Thinking/Problem Solving (57.5%) 6. Information Technology Application (53.0%) 7. Written Communications (52.7%) 8. Diversity (52.1%) 9. Lifelong Learning/Self Direction (42.5%) 10. Creativity/Innovation (36.3%) 11. Leadership (29.2%)• HSE student participants are strongly motivated to pursue STEM careers, are more likely to enroll in and complete post-secondary education and training in STEM, and enter the STEM workforce in greater numbers than do non-HSE

Conference Session

Entrepreneurship Courses and Outcomes II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Anthony Marchese, Colorado State University

Tagged Divisions

Entrepreneurship & Engineering Innovation

BusinessOne of the main components of the new program was the development of the STESE graduatecourse. To develop the course sequence, the authors worked closely with faculty members whoare part of a burgeoning entrepreneurship program within the COB. Course content that isspecific to global sustainable enterprises was developed in consultation with faculty memberswho were actively involved in the GSSE program and in the entrepreneurship certificate programfor undergraduate students [11]. Specifically, in its first offering, course content for the STESEcourse was culled and/or course syllabi were shared from the following existing courses withinthe COB, which span from the 200 to the 600 level:  Social, Ethical, and Regulatory Issues in Business

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

) Systems Thinking Systems Thinking - What Engineers Bring to the Game (Key Competency) Global Perspective Working and Leading within a Global Value Chain (Facing Business Realities) Innovation On the Job Innovation, Creativity and Risk Taking (Facing Business Realities)• Expected learning outcomes: o Effective demonstration of eight competencies o Understand the theory behind the practice of management o Demonstration of communication skills rhetorically, interpersonally , and in writing o Self-knowledge—character, communication, ethics, innovation/creativity, skills in economics, marketing, teamwork, global awareness/world view, project planning

Conference Session

Innovations in Teaching: Mechanics

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jim M. Papadopoulos, University of Wisconsin - Stout; Christopher Papadopoulos, University of Puerto Rico, Mayaguez Campus; Vincent C. Prantil, Milwaukee School of Engineering

Tagged Divisions

Mechanics

mechanics, including nonlinear structural analysis, computational mechanics, and biomechanics. He is also active in engineering education and engineering ethics, particularly in mechanics education and appropriate technology. At UPRM Papadopoulos serves as the coordinator of the Engineering Mechanics Committee, which man- ages the mechanics courses taken by all engineering majors. He also co-coordinates the Social, Ethical, and Global Issues (SEGI) in Engineering Program and Forums on Philosophy, Engineering, and Technol- ogy.Vincent C. Prantil, Milwaukee School of Engineering VINCENT C. PRANTIL Vince Prantil is an Associate Professor in Mechanical Engineering at the Mil- waukee School of Engineering. Dr. Prantil

Conference Session

Two Year-to-Four Year Transfer Topics Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Julie A. Rursch, Iowa State University; Douglas W. Jacobson, Iowa State University

Tagged Divisions

Two Year College Division

potential demand for the graduates.Seventy-nine companies responded to the online survey which was administered during thesummer of 2009. Figure 3 shows the type of industry for which the respondent worked.Figure 3. Type of Industry For Which the Respondent WorkedThe Table 4 shows the summary of the skills desired by the companies grouped into threecategories identified as important: personal, technical and conceptual. Interestingly, the highestscoring personal skills were ability to adapt and ethics, followed closely by the ability tocollaborate. Security and infrastructure/networking were the top rated technical skills employerswere looking for, while problem-solving abilities were the top ranked conceptual skill employersvalued. A theme among

Conference Session

Professional Graduate Education and Industry

Collection

2011 ASEE Annual Conference & Exposition

Authors

Carla C. Purdy, University of Cincinnati; Xuefu Zhou, University of Cincinnati

Tagged Divisions

College Industry Partnerships, Graduate Studies

participants for professional success in the engineering field.Current ProgramOur current program consists of three seminars--Modern Teaching Techniques, AdvancedTeaching Techniques, and the Academic Profession--together with a 10-hour mentored teachingexperience. Participants also have the option of completing additional mentoring hours andearning a PFF certificate from the associated university-level PFF program. Since most of ourPh.D. students do little teaching during their time at UC, the program was designed to providebasic skills for organizing class materials, delivering content, and evaluating students, exposureto active learning techniques, discussion of engineering-related topics such as project and teammanagement, ethics in engineering

Conference Session

Comparing Different Aspects of the Cooperative Education Experience

Collection

2011 ASEE Annual Conference & Exposition

Authors

Craig J. Gunn, Michigan State University

Tagged Divisions

Cooperative & Experiential Education

Page 22.863.3 EGR 100 – Freshmen Design Resumes, email, short engineering focused reports, engineering writing demands, problem solving, speaking, ethics, and orientation to the university/college/majorsSoph.Year ME 201 – Thermodynamics Student communication survey, refresher for past grammatical expertise Tools: MS Word, Email, WWWJuniorYear ME 332 – Fluid Mechanics ME 371 – Machine Design I Laboratory Reports: (Approx. 9 @ 4-6 pages each) Short Technical Reporting Brief narrative of procedure, measured data, deduced and Design Analysis Reports (2 @ 4-6 pp. analyzed data, plotted results with