providing a discussion of mechanical properties of materials and the historicalimpact of these developments at the beginning of the course, students begin to see how materialsdevelopment can have a significant societal impact.3 This historical reflection on the societalimpact of new materials paved the way for examining examples of how materials science andengineering today might be used to address some of society’s environmental and energychallenges.The remainder of the course was dedicated to considering several ways in which materialsscience and engineering can have an impact on energy and environmental challenges. The fourapplications that the course focused on were materials for solar energy conversion, smartmaterials for energy efficiency
Expert_____________________________________________________________________________________________________________________Instruction Teach the Teach how to decide Teach other things to consider Encourage individual to Encourage individual to draw on personal skill/theory/ principle when to use the when applying theory, content reflect on personal experiences applying the skill/theory/principle, skill/theory/principle driven example, mistakes that experiences and observed both their successes and failures and encourage have been made and experiences of others self-confidence to use intuition to solve
make informed decisions about which engineering discipline to pursue. • Explain the critical role of cross-cultural and multidisciplinary teamwork in nurturing diverse perspectives and the creation of innovative engineering solutions that meets the needs of diverse users. • Reflect on your teamwork and leadership abilities, recognizing how your behavior impacts the whole team, and making team process adjustments whenever necessary. • Explain critical and diverse uses of modeling in engineering to understand problems, represent solutions, compare alternatives, make predications, etc. • Use multiple models, estimation, and logic to triangulate and evaluate information coming from various data sources
projects ranging from sales and commercial operations to clinical delivery systems and financial performance. Carl’s teaching interests and experience reflect a wide range of development activities. Carl leads lean-six sigma training and development as part of the administrative process redesign initiative and the adminis- trative excellence strategic initiative at the University of Wisconsin. In addition, Carl is a frequent lecturer on patient safety and healthcare system optimization. As the co-director of the technical leadership cer- tificate program, Carl was instrumental in forging beneficial teaching partnerships with the Wisconsin School of Business. Prior to coming to the UW, Carl managed global corporate
(Part 1: Imaging) Conceptual goals: Understand the nature of polarized light, how polarization changes upon reflection and transmission, and how insects use polarized light for navigation and communication. Experimental goals: Learn how to operate CCD cameras in conjunction with linear polarizers. Quantify how various materials either polarize or depolarize scattered light. Computational goals: Use MATLAB’s Image Acquisition Toolbox to acquire images from CCD cameras. Learn basic image processing in MATLAB to create polarization maps of optical targets.This first experiment in the polarized light lab introduces students to polarimetric imaging, amethod that is widely used in science, engineering, and medicine. Using a CCD
, technology, and science teachers; and faculty and graduate teaching assistants involvedwith undergraduate science and math teaching at the university. The activities implemented atthe institute followed Kolb’s experiential learning cycle with some adaptations. The participantsgot the opportunity to acquire concrete experiences involving teamwork, time management, andproject execution skills; reflected on their learning experiences through presentations at the endof the institute; developed concepts related to organic chemistry, engineering design,instrumentation, plant sciences, physics, mathematics, and environmental sciences; and activelyexperimented with virgin and used cooking oils to generate biodiesel, designed and set up asimple algae
think that the student should be recording any data or observations that they may have noticed during the process in their science notebook.”Time Allocating time for “Spend less time on deciding what materials to use for the different design container.” activities “More time should have been spent brainstorming, creating the first test version, and reflecting in the summary.” Page 23.503.6ResultsThe descriptive data showed that Cohort 1 (M
sensors anddata acquisition systems, even though they might use these tools in their professional life.Furthermore, students might not be aware of the potential uses of the data collected by thesensors.This paper discusses efforts for the development of a course in the area of model updating. Thecourse uses the EFFECTs pedagogical framework consisting of [2] : i) a decision worksheetasking students to estimate the solution to an engineering problem, ii) active learning activities tointroduce students to the material needed to correctly answer the driving question, iii) reflectiveexercises asking students to reflect on the material learned in class and revise the answer to thedriving question, and iv) a final report encouraging students to re
exiting problems,and work in a team [1, 2, 7]. It has been reported that students’ retention of the information willnot be gained only by receiving it verbally or visually. It rather needs to be utilized towardproblem solving [2, 8-10]. Page 23.264.2Active learning has been defined [6] as the process of having students engaged in some activitiesthat forces them to reflect upon ideas and how they are using those ideas. This requires studentsto regularly assess their own degree of understanding and skill at handling concepts or problemsfor attainment of knowledge by participating in project activities in a particular discipline. Inanother words, the
InnovationIn addition to our discussion of these four factors’ impact on corporate innovation, the secondmajor element of each corporate visit was each industrial partner’s recommendations ofcompetencies, mindsets and knowledge for future engineering innovators, especially those notprovided by today’s engineering education. Both corporate innovation leaders and recentengineering graduates provided over 160 recommendations. The second part of the paperpresents a summary of their answers and reflections of the authors in the section title “The Voiceof Corporate Innovation Leaders.” Page 23.17.4 The Culture of
community on the survey’s preliminary findings. Thus, thenext section highlights findings-to-date, provides a brief discussion of the findings, and outlinesnext steps in this project.Summary of Key Findings-to-DateThe survey yielded 1,027 “usable case” respondents reflecting the following demographicprofile: 70% English; 30% non-English; responses received from all languages except French 80% Male; 20% Female 50% between ages of 40-60; balance over other age ranges 46% Academicians; 40% Practitioners; 10% Students; balance preferred not to answer Aerospace (17%); Computer Science (13%); and Electrical/Computer (13%) are largest Engineering Discipline response categories 64% reported having graduate-level Engineering degreeTop
lifting ABET’sban on dual-level accreditation such that “Path 2” was a viable option. The persuasion of ABETto lift this ban was delegated to the TCAP3 Accreditation Committee3. At the time of writing, themodel law has not been changed to reflect the increased educational requirements recommendedby PS 465 by any of the NCEES member boards. It was hoped that at least one state would adoptthe new model law within two years of allowing dual-level accreditation3. The goal of this paperwas to focus on the status and willingness of departments to accredit their master’s degreeprograms even without the changes in the model law.Dual-Level Accreditation and its Role in PS 465To implement PS 465, engineering interns on the second path to licensure will
. Inaddition, a 30-minute overview of the EET program was offered by our program coordinator, whichgave students an overall understanding and a big picture of the program and the curriculum. Lastly, inthe end of the quarter, students were encouraged to attend the annual EET senior design demonstrationevent to witness the hard-work and engaging projects seniors had accomplished. Interactions with theupper-class students greatly benefit the freshman students as reflected by students’ comments in their Page 23.931.4teaching evaluations of this course. Students’ feedback from both the teaching evaluations and the endof quarter class surveys have
introduced to andconvinced of any developing themes. The structure of the meetings focuses on codes,which are the analytical tools most closely related to the data. As implied above, a greatdeal of interpretation is somewhat hidden in researching students’ conceptualunderstanding as researchers assume they know what students mean, or that students’statements accurately reflect their understanding of the concepts (rather than just thequestions being asked, for example). The increased and structurally supported focus onthe data is the greatest potential strength of this method.Disagreements about coding, even when they arise to a misunderstanding of content onthe part of the novice, force an ongoing attenuation of the theoretical framework guidingthe
one dataset toinvestigate the acceptance of Moodle.An Exploratory Factor Analysis (EFA) was employed to the data to determine which ofthe 30 items formed related subsets. EFA was applied with principal componentsextraction, eigenvalues greater than 1.00 and absolute value greater than .40 13, 14. Resultsof a Kaiser–Meyer–Olkin (KMO) measure of sampling equal to .935 and Bartlett’s test (p< .0001) showed that using EFA was appropriate for this study 15. The EFA withprincipal components extraction yielded five factors that accounted for 63.93% of thetotal variance.Table 1 shows the rotated factor loadings, which are the correlations between the variableand the factor. The size of each loading reflects the extent of the relationship
restricted into pursuing a specific process to solve the problem. Students wouldcollaboratively develop the first draft of their solution. Then they enter the solution into theapplication. The application executes each step and students see the results. Applicationprovides immediate feedback for each step, which enables students to reflect on their solutionand revise it. The prototype was tested with schoolteachers. The preliminary analysis showsoverall positive reaction to the software with a number of suggestions. In addition, teamsshowed more collaboration on a big screen interactive boards compared to tablets.IntroductionThe interest to improve Science, Technology, Engineering, and Mathematics (STEM)education in pre-college educational systems
Education Excellence Award.Ivo Wambeke Page 23.1065.1 c American Society for Engineering Education, 2013 Service Learning: Industrial Embedded Systems CourseAbstractService learning is defined by the National Service-Learning Clearing House as “a teaching andlearning strategy that integrates meaningful community service with instruction and reflection toenrich the learning experience, teach civic responsibility, and strengthen communities.” Aservice learning capstone project was incorporated into a senior/graduate level industrial controlcourse. The course provides instruction on control system
bestpractices, women or minorities on teams can experience negative outcomes. Their perspectivesare not always considered valid by majority teammates, and they are often assigned unimportanttasks3, 4, reflecting a societal stereotype of majority men as engineering “experts.” Moreover,under-representation of one’s social group (e.g., gender or race) in the academic environment canlead to reduced performance as a result of stereotype threat, i.e. the concern that poorperformance may appear stereotype-confirming to others5, 6, 7. The isolation that these studentsfeel on their teams may lead to diminished feelings of belonging in their field and lower retentionamong these individuals8.Despite the employment of best practices, our earlier analysis of
202 1 220 250 245 243 251 235 3 2 240 225 230 241 251 204Case 4: Blood all over the placeA huge consignment of castings, cylinder heads for automotive engines, was returned to a foundry bythe machine shop because of blisters found when the castings were machined. The returned castingswere stacked all over the floor in the plant, in the aisles and hall ways, and the night-shift inspectordescribed the scene as “blood all over the place,” reflecting the seriousness of the problem. Thecustomer’s machining and assembly operations needed the castings badly; the foundry could lose thecustomer if the problem
, consider, and discuss society’s norms, society’s needs, and society’s Page 23.1251.11expectations of engineering solutions and technology. The ability to think beyond thetechnological design is crucial to developing engineers that are also leaders and promoters ofsustainable policy.AcknowledgementsThis project is funded by a grant received by the United States Department of Agriculture underthe Hispanic-Serving Institutions Education Grants Program. The findings and the viewsexpressed in this paper are those of the authors and do not necessarily reflect the position of theUnited States Department of Agriculture.References 1. ABET Criteria
, primarily journals, should be acquired, retained,moved into storage and discarded. In addition to being a useful tool for collection developmentpurposes, citation analysis can also provide insights into the developing core literature ofemerging and interdisciplinary fields. Interdisciplinarity is frequently cited as a way to breakdown silos between disciplines and facilitate solutions to real-world problems. In this study,citation analysis was performed on references from PhD and master’s theses written byengineering graduate students affiliated with an interdisciplinary Fuel Cell Research Center(FCRC). The author is especially interested in determining the degree to which interdisciplinarityis reflected in the materials cited by graduate students
the spring 2012 exam scores did not improve, they also did not decrease. The goal ofimprovement was not achieved, but students were no worse off. Although mean exam scoreswould not reflect this, the flashcards may have helped some students do better than they wouldhave otherwise. Page 23.1313.5Table 1. Descriptive statistics and 1-tailed Independent t-test table Test # Group n Mean (SD) t statistic 1-tailed p 8 past semesters 300 83.01 (10.08) 0.19 0.5750 Spring 2012
taught from the very beginning of our program To increase the ethical and moral education of the students through internal reflection and a Gil-Martín et al. Spain free election Hoole, Hoole Sri Lanka To use human rights as a religiously neutral basis for teaching engineering ethics Iino Japan To learn who engineers are and the world context of engineering work Wareham, New To participate in a general discussion of ethical theories, using these to explain the behaviour Elefsiniotis, Elms Zealand of participants, during a 2-hour workshop To recognize and analyze ethical
productive, then you’re good to go. And if people think that you’re just off having a bunch of kids all the time and you’re not doing your work…that reflects negatively on you. But at the same time…there’s…all these guys in the department…who have kids, right? And I don’t think it’s ever reflected negatively on them that they’ve had kids.Similar concerns over stigma for women were echoed by numerous others. In fact, oneparticipant reported that she did not even tell colleagues about her pregnancy until her eighthmonth of pregnancy because she believed they would judge her negatively, and she was alreadyat a disadvantage because she had less “respect and stature” than older, male colleagues. Otherfemale participants believed
] Page 23.86.13Figure 6a SafelyAssembling The Prototype Figure 6b Wave Reflections and the Underlying Theory Figure 6c How It Measured Up Figures 6a- 6c Page 23.86.14 From the 2012 presentation by Walsh Middle School ‘Sound Cats’ Team Framingham, MA, [12]Figures 6c and 7a document the “Sound Cats” testing and results. Although Figure 6cstates that they did not have good performance in their testing, their design, in fact,delivered excellent performance. On competition day the Sound Cats’ design achievedthe highest voltage reading. The data also exhibits the correct shape for the voltage fall-off with distance. Theory states that the voltage should decrease by
class’ new engineering report assignment and method. Thestudents were assigned to write a one- to two-page reflective statement responding to the promptbelow. The students were directed to target as primary audience the Dean of the College ofEngineering, with peers and the instructor being a “transparent” secondary audience. Prompt: "How and why (or why not) did your experience working on the Lego car assembly line Report Project provide you with educational benefit(s) toward developing your engineering communication skills?” Page 23.15.15To remove instructor bias from the review of student feedback, the instructor solicited
application offormal rules, principles, and forms with a focus on clarity, precision, and efficiency. RhetoricalLiteracy reflects an understanding of the purpose and objectives of writing, the audience forwhom a piece is written, as well as an awareness of the author’s own ideological position and theeffect it may have. Social Literacy involves the ability to collaborate and work with others and toarticulate and even negotiate the purpose or intention of such collaboration. TechnologicalLiteracy reflects a working knowledge of communication technologies, including proper use of aword processor and formatting to support the intended communication with the reader. Thisliteracy also covers an awareness of how communication technologies promote social
updated annually.The multi-day or two-hour workshop formats included the following information: • Overview of types and lists of graduate funding opportunities • Getting organized to successfully apply for several fellowships simultaneously • Approaching faculty for strong recommendations • Advice on how to reflect on one’s experience to write an award-winning Personal Statement • Examples of how to apply for the NSF Graduate Research Fellowship (GRFP), aimed at exposing future scholars to apply for funding from any organization and encouragement to consider NSF funding later in their careers • An introduction to the NSF GRFP application requirements (e.g. the three essays required), broader impacts, and
- develop their identities as engineers, through greater understanding of actual practices of engineering and enculturation into these practices 11, 12.In this study, we explored the challenges students face as they worked to formulate and solve ill-defined problems in and with community members. The three emergent themes that arediscussed in this paper reflect the advantages of “project based” engineering noted in theliterature and align with the practices of development in engineering. We explored thesechallenges as students moved across contexts to make sense of a wider range of practices integralto becoming an engineer 6, 13. Page