chain systemscourse. Table 1 provides an overview of the entire creative writing component of the course.This paper focuses on Poems 2 and 3 along with Reflections 1 and 2.Table 1. Assignments for the creative writing component of the course. Contribution to overallAssignment Brief description course gradePoem 1 A poem about oneself 1%Poem 2 A poem about a concept related to deterministic inventory modeling 1%Reflection 1 Reflecting on one’s experience of writing Poem 2
design as one of his project assignments over the years, including industrial designaspects. However, through a collaborative effort, the project had to be modified to reflect the newaim. Thus, student groups were asked to design a product (possibly a fastener, a light fixture, or aconstruction toy) with 4-6 components based on the idea of biomimicking climbing plants. Thedesign was expected to have an obvious art component via use of industrial design, also includingaesthetics, colors, or movements. Students followed the steps of the product development processwith additional assignments being interjected into the regular project workflow. These assignmentsincluded a “Business Thesis Template” a document that defines the business idea or the
latter is consistent psychologist abilitieswith Feuerstein’s and Maturana’s ognitive Figure 1 - Learning outcomes‘ enhancement cycle and emotional change perspectives. Fortransformation to happen in a higher education setting, it is necessary to have certainconditions that allow cognitive and emotional transformation in students [26] [28].The second purpose is to mediate transformation. Based on Feuerstein’s Mediated LearningExperience theory and Maturana’s learning perspective, all interventions designed by ourteam have a mediator. The role of the mediator depends on the activity, which in any case isto promote self-reflection and critical
Management (EM), Industrial Management (IM), Engineering TechnologyManagement (ETM), and Operations Management (OM)) and 40 programs were in MechanicalEngineering (ME). The EM sample was retrieved from the ABET website list of EngineeringManagement related accredited programs. The ME sample includes institutions that conferred1,000 or more degrees in the years 2009-2021 based on the ASEE ‘Engineering by Numbers’report [17, 39].Analysis FrameworkWe considered seven components of the ABET student outcomes [37] that support the programeducational objectives and reflect professional skills sets: professionalism, ethics, oralcommunication, written communication, teamwork/collaboration, and leadership. Otherprofessional skills which do not fall in any of
the 1,656 paths leaving engineering via Industrial, 45.7% of them terminated inSeries 52 Business (Table 5). While Business was also the overall most common non-engineering destination for transfer paths which started within engineering (19.6% of suchpaths), the list of the next highest frequency destinations (Computer Science, 12.7%; PhysicalSciences 7.4%; General Studies, 6.9%; Biomedical / Biological, 6.6%; Social Sciences 6.2%;Engineering Technologies, 6.2%) is not reflected when considering only Industrial.Table 5. Non-engineering Destinations for IE Origin (n=1,656) CIP Series Origin Percent 52 Business 45.7 15 Engineering Technologies 7.8 45
numerous educators and academics, but resultsabout its impact on learning have been mixed, partly because of a dearth of data [11]. Forcomprehensive, long-term learning, Kolb created a four-step model learning cycle. The steps areknown as active experimentation, reflecting observation, abstract conceptualization, and concreteexperience (doing) (using the ECP approach) as shown in Figure 2. It is anticipated that studentswill retain more information after taking courses that follow all these procedures [12, 13].Students directed through the learning cycle are also exposed to more excellent educationalopportunities and chances for individual thought and self-discovery.Fig.2 Kolb’s Learning Theory3 Methodology3.1 The Use of Experimentation and
American universities, for example, are excellent references in investmentsin the education of their engineering courses, as well as in modern teaching and adequateinfrastructure [2].Considered by different authors as one of the best ways for students to acquire complete andrealistic knowledge, active learning is another way of teaching. This approach is student-centered, ensuring that professors are professionals who guide students in this process [3],[4]. The involvement of the whole class increases from active learning strategies, making itpossible to develop an opportunity to reflect on learning in a set of solutions to real problems[5].The different active learning strategies also guarantee the development of professional skillsthat students
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to the number oflesson plans (out of nine) that reflected the specific data analytics topic. It can be seen that datacollection, data visualization, and spreadsheet modeling are the common topics chosen, and theyare well-connected to industrial engineering curriculum. It is not a surprise that the relatedcollege courses are mainly in statistics, basic modeling and computing classes, and advancedclasses related to data analytics.Conclusion and Future WorkIn this paper, we presented a descriptive statistics analysis of the learning modules created by theparticipating teachers through the AR-DATA program. We summarized the standards theteachers have used for their lesson plans as well as the common ideas and topics of the learningmodules. It
. Sci. Educ., vol. 39, no. 6, pp. 742–760, 2017.[12] L. Curry and M. Docherty, “Implementing competency-based education.,” Collect. Essays Learn. Teach., vol. 10, pp. 61–73, 2017.[13] R. M. Crespo et al., “Aligning assessment with learning outcomes in outcome-based education,” in IEEE EDUCON 2010 Conference, 2010, pp. 1239–1246.[14] S. Adam, “An introduction to learning outcomes.” article B, 2006.[15] J. M. Williams and others, “The engineering portfolio: Communication, reflection, and student learning outcomes assessment,” Int. J. Eng. Educ., vol. 18, no. 2, pp. 199–207, 2002.[16] G. Lesmond, S. McCahan, and D. Beach, Development of analytic rubrics for competency assessment. Higher Education Quality