? Methodology We employed weekly academic classifications in an early warning system (EWS)for students in an undergraduate engineering course at a research-intensive university inthe Midwest. Coupled with the EWS, we used data from students’ use of variousinstructional technologies during the course through a digital coaching application calledE2Coach. The E2Coach system provides students with a variety of resources including:weekly help messages, exam preparation (before the exam) and reflection (after theexam) tools, a weekly checklist of tasks that will help students prepare for the class, agrade calculator so students can estimate their grade based on past and planned futureperformance, and various online systems for reviewing academic
-world challenges and problems [6]. PBL is particularly helpful for engineering students.Students learn about a subject by working for an extended period of time to investigate on acomplex question, challenge, or problem [6]. Therefore, a four-stage project is required forstudents to develop an injection molded product, which starts from product conceptual design,developing detailed 3D models and 2D engineering drawing, conducting Moldflow simulation toimprove the design, applying Mastercam to generate CNC tool path for mold fabrication,installing the mold and machine setup, fabricating the parts, inspecting the quality, and writing aself-reflection report to summarize the learning and analyze how to improve the quality andeliminate molding
approach mimics industry/job environment where students will have limitedtime to solve problems but still more than just one hour typically allowed in academia. Inaddition, additional stress induced by the presence of instructor is eliminated and reflects workenvironment in industry, as one would expect in most cases that supervisors would not bemonitoring employees as they solve problems. Although there may be occasions where studentswould have to solve problems quickly, one would not expect that to be applicable to cases whichwould require lengthy calculations which would be common for design problems involvingsystems dynamics.The students are asked to sign University Honors Code at the beginning of the semester. If thestudents do not sign the
level. Though it is oftenPrograms in engineering technology grant students a technical base education. However, it doesnot completely prepare students to handle the breadth of the material instructed in engineeringcourses. A Master’s degree offered in the engineering technology department will have to betailored to match qualifications the undergraduates while also meeting the changing demands ofand the progress of the industry .ConclusionThe researchers examined students’ responses and found that they reflect an overall positiveattitude toward their own education in the construction engineering technology program atFAMU. The student responses derived a reasonable assessment of overall student sentiment.The results indicated that the students
manufacturing. Students in Engineeringprograms have been very well versed in analysis, simulation, and abstract design. By themselveseach of these programs have strengths and weaknesses. However, when combining students fromboth of these program we develop teams that more closely reflect professional design teams. Theability to successfully implement complex design and build projects is enhanced.This paper outlines the design of a program at Western Carolina University (WCU) thatculminates with a senior capstone project for industry. Projects are done by teams of studentsmixed from the School disciplines of Electrical Engineering, Mechanical Engineering, Electricaland Computer Engineering Technology, and Applied Systems Engineering Technology. A
effect oftheir efforts. Often a true demographic of these students is not understood, leaving organizerswith generalizations based upon activities and interactions in the informal setting. Manysuccesses have been recorded and discussed at length11,13, without a great deal of differentiationof students based on gender, age, or ethnicities. All of them have been proven to influencechoice of major and extracurricular interests.Demographics. Some assert that the demographics of different STEM groups have changed dueto these efforts inside and outside of the formal school setting. However, the demographics havenot changed in ways that reflect current demographics of the population at large14. It is unclear ifthis is due to targeted or convenient
were clarified. Students came to lab more familiar with the circuit and the process to buildit. All these effects contributed to prevent mistakes in the process.To sustain these improvements, the revisions to the lab assignment will be made permanent; theinstructor and teaching assistants will look for clarifications in other assignment instructions. In thefuture, students will be asked to anticipate failure modes and how to prevent them as part of the pre-laboratory assignment, then reflect on those predictions in lab report conclusions. Training on otherLean Six Sigma techniques will be included in the curriculum.This project demonstrates that even a brief, 75 minute Kaizen event held for freshman circuits studentscan improve their
required to supplement the remote classroom experience. Social activities during this residency will bring cohorts together for a final shared experience. 3. Capstone/Graduation Residency (Reflections) - The culmination of the TCMT program, this residency provides students the forum for final class presentations and assessments. Interactions, discussions, and feedback mark the integration of learning and application. Students participate in Aggie's graduation ceremonies alongside campus students.Residency Week 2017 will be held August 13-17, 2018 in College Station, Texas.Costs & AdmissionsThe 2018-2019 tuition rate for the METM program is $45,000 for in-state and $55,000 for out-of
degree from a program that isnationally accredited provides the students confidence in the quality of education they receive[5]. Accreditation status provides the opportunity to students to transfer their credits to otheraccredited programs or institutions, if needed and also signals the potential employers that astudent’s degree met the widely accepted standards relevant to his/her program [6]. For a highereducational institution and its programs, accreditation provides the opportunity for self-definitionand self-reflection, and opens the door for continuous improvement effort [7, 8].Savannah State University (SSU) is a SACS (Southern Association of Colleges and Schools)accredited higher educational institution. Southern Association of Colleges
respondents, butmany of NACE’s employer members are involved in college recruiting.The hiring practices of the federal government also reflect perceived differences in work rolesbetween engineering technologists and engineers. The federal Office of Personnel Management(OPM) places ET under the same broad category, “All Professional Engineering Positions,” thatincludes those with 4-year engineering degrees (OPM, 2012). Technically, this means that somewith 4-year ET degrees from institutions accredited by ABET can be hired by the federalgovernment, but the OPM rules restrict hiring to entry-level jobs (GS-5, pay range $27k-$36k;those with “superior academic performance” may enter at GS-7).Some within the ET field believe that this OPM provision
applicationof modern modeling and simulation tools which are reasonably easy to use and could assiststudents in dealing with complex problems. An example of such a tool is theMatlab/Simulink/Simscape set of modeling and simulation tools that can model many complexphysical systems [7].The course that is discussed in this paper integrates fundamental ideas from integrativeexperiences and project based learning. The course builds on the material covered across anumber of different engineering and science courses, and extends student ability from dealingwith simple textbook problems to solving complex real world engineering problems. The courseis going through development stages and reflects a number of lessons learned that already havebeen integrated or
Fig.14: Timer Control HMIIV. ResultsThis section summarizes results which demonstrate the functionality of the system and discussproject execution from a cost and schedule viewpoint.System PerformanceInitially, to test the integrity of the sensor, an RS232 terminal named Termite was utilized. Thisterminal allows the user to send and receive data from a sensor based upon written commands.When commands were sent to the sensor through the terminal, desired responses andmeasurements were received assuring that the sensor was in good working order and ready to beemployed. Further experimentation included the testing of the sensor in dry soil and wet soil toconfirm that the sensor’s measurement numbers are consistent and reflect nominal values