Conference Session

Technical Session T1B

Collection

2022 First-Year Engineering Experience

Authors

Jenahvive K. Morgan, Michigan State University

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the ability to work together while solving an open-ended designproblem, and being able to overcome any obstacles that arise. These obstacles involve differingwork ethics, personalities, and communication styles. Inevitably, these differences can lead toconflict, and a need to resolve disagreements within the team. These ever-present emotionalaspects to working in a team are found not only in student projects, but also on the projects theywill be working on once they graduate. Finding the skills as a student to successfully navigatethe myriad of issues that may arise when working with others, sets student up for success in theirengineering careers after graduation, as shown by Jones (1996) [1] and Seat et al. (1996) [2].Often students who are

Conference Session

Technical Session T1B

Collection

2022 First-Year Engineering Experience

Authors

Amanda Marie Singer, Michigan Technological University; Katrina L Carlson, Michigan Technological University; Akua B. Oppong-Anane, Montana Technological University; Michelle E Jarvie-Eggart P.E., Michigan Technological University; Sarah Tan, Michigan Technological University

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Diversity, Full Papers

relationships reported amongst respondents? 2. How do the results obtained from the previous study compare to the findings of this cross- university study?Study DesignTo further examine the role of familial influence on student engineering major choice, this studyemploys a multi-methods approach facilitated through a survey with both quantitative andqualitative components. Data obtained from elements of the survey were first analyzedindependently from each other. These independent analyses were followed by a combinedinterpretation phase that sought to understand the results in reflection of one another. To aid inthe analysis and interpretation of results, Social Cognitive Career Theory is used as a theoreticalframework for this

Conference Session

Technical Session M5C

Collection

2022 First-Year Engineering Experience

Authors

Thomas J. Siller, Colorado State University; Erica J Marti, University of Nevada - Las Vegas; Cory Budischak, Temple University; Matt Gordon P.E., University of Denver; Carlo Salvinelli, University of Colorado Boulder

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Illinois at Urbana-Champaign. Prior to graduate studies, Erica joined Teach for America and taught high school chemistry in Las Vegas. While her primary research involves water and wastewater, she has strong interests in engineering education research, teacher professional development, and secondary STEM education. In 2021, Erica received the ASEE Pacific Southwest Early Career Teaching Award and two awards at UNLV for mentoring undergraduate and graduate students. She also received the Peter J. Bosscher Outstanding Faculty Advisor Award in 2019 from Engineers Without Borders and was recognized as a Nevada Woman in STEM by Senator Jackie Rosen.Cory Budischak, Temple University Cory is a teacher and researcher who

Conference Session

Technical Session T1A

Collection

2022 First-Year Engineering Experience

Authors

Jessica Martin, Baylor University; Jana Roste, Baylor University; Austin T. Smith, Baylor University; Shane Michael Meyer, Baylor University; Emma G Cartisano, Baylor University; Emily Sandvall, Baylor University; Andrea Pouso Morales, Baylor University

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Diversity, Full Papers

. Broadly categorized, students’understandings of success related to career preparation and opportunities—an expected theme forthose in technical degree programs, happiness or enjoyment in life, and living a life of purpose—what some might call “the good life.” Edwin’s response to our questions related to successreveals such understandings of success are not necessarily exclusive: “To me, [success] meansbeing able to fulfill your own personal purpose, while at the same time, enjoying it and making agood living out of it, I would say. That’d be success.”Though student participation in specific majors clearly shapes notions of success, students’insistence that the profitability of a future career is not the only—and sometimes not even theprimary

Conference Session

Technical Session M5C

Collection

2022 First-Year Engineering Experience

Authors

William C. Oakes, Purdue University at West Lafayette (COE); Srinivas Mohan Dustker, Purdue University at West Lafayette (COE)

Tagged Topics

Diversity, Full Papers

benefits to their career advancement [10]. Increasedretention has been reported within engineering engagement [11-13]. Improved diversity, especiallyin regard to gender, has also been documented within engagement [14-16].This paper presents an approach that builds on the prior literature to create an alternate pathwaythrough the first year in engineering that includes community-engaged learning community (LC)classes. Evidence from the experience is shared along with lessons learned.Context: First-Year CurriculumPurdue University has had a dedicated department or school responsible for the first-year ofengineering for more than 60 years [17]. All engineering students at Purdue University are requiredto complete a common first year core of classes

Conference Session

Technical Session T1A

Collection

2022 First-Year Engineering Experience

Authors

Susan L. Amato-Henderson, Michigan Technological University; Jon Sticklen, Michigan Technological University

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Full Papers

feels they have in the relevant environment), and relatedness (sense of social connection and support within the relevant environment). In sum, research regarding the self-determination theory would suggest that both perceived success and the sense of support in the form of a caring instructor would predict overall motivation or empowerment as described in the MUSIC model. The usefulness factor in the MUSIC model suggests that motivation increases when students perceive the utility of their academic work toward earning their degree or their future career. The utility of their work can be in the short term, such as needing to pass a required course, or in the longer term, such as the value of learning information relevant

Conference Session

Technical Session M5C

Collection

2022 First-Year Engineering Experience

Authors

Surupa Shaw, Texas A&M University

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Full Papers

projects integrated with the undergraduate engineering curriculum. Dr. Surupa Shaw | Texas A&M University | Higher Education Center at McAllen TX I. INTRODUCTION The undergraduate engineering curriculum forms the fundamental knowledge base for our future engineerswho would be serving the global society. It is imperative for the undergraduate engineers to get a reality checkon the utility of their classroom knowledge that would help them shape their career path and would providethem a valuable appreciation of the course content. Phylis Blumenfeld et al. [1] emphasized on the compellingargument of making projects an integral part of the learning process, as they promote student

Conference Session

Technical Session M5A

Collection

2022 First-Year Engineering Experience

Authors

Sean P Brophy, Purdue University at West Lafayette (COE); John H Cole, Purdue University; Srinivas Mohan Dustker, Purdue University at West Lafayette (COE); William C. Oakes, Purdue University at West Lafayette (COE); Carla B. Zoltowski, Purdue University at West Lafayette (COE)

Tagged Topics

Diversity, Full Papers

students take the traditional path consisting of two 2-credit introductory engineeringcourses. The first course, ENGR 131, focuses on design, teaming and career exploration usingExcel as a computer tool to model systems and analyze data. The second course, ENGR 132,introduces students to MATLAB and more formal constructs associated with computation.Two other pathways are offered to students to meet the first-year engineering requirements. Onepathway combines the traditional introductory courses into one 4-credit course, ENGR 130. Thispathway is ideal for students who have some or most of the first-year requirements met throughAP credit.The other pathway leverages Learning Communities(LC), where students participate onvertically integrated project

Conference Session

Technical Session T1A

Collection

2022 First-Year Engineering Experience

Authors

James R McCusker PhD, Wentworth Institute of Technology; Christopher John Brigham, Wentworth Institute of Technology; Afsaneh Ghanavati, Wentworth Institute of Technology

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lost time and tuition fees since leaving the engineering field costs studentsapproximately $500k over the course of their careers [4].Factors that contribute to students leaving engineering programs include lack of belonging, quality ofadvising and instruction, and performance in first-year courses. Research shows that a lack of sense ofbelonging is one of the biggest reasons a student leaves engineering [5]. In addition, the quality of advisingand course instruction has a significant impact on student persistence in an engineering program [6,7].Students’ persistence can be greatly improved if there is a culture of collaboration in their academicenvironment [8]. It has been shown that fostering a community environment, both in and out of

Conference Session

Technical Session M5B

Collection

2022 First-Year Engineering Experience

Authors

Heath Aren Schluterman, University of Arkansas; Aysa Galbraith, University of Arkansas; Leslie Bartsch Massey, University of Arkansas; Brandon Crisel; Candace Auburn Rainwater, University of Arkansas

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a drill section while enrolling in GNEGcourses. The drills are primarily used for outside speakers including each of the departments,career services, multicultural center, and other student support services such as academiccoaching. During drills, students learn about all engineering majors, and go through series oftalks that foster transition from high school to becoming a quality engineering student. Lastly, asa part of GNEG courses, students meet once a week with a peer mentor. Peer mentors helpstudents to build an understanding of the campus resources and guide their mentees throughtopics such as time management, interacting with faculty, and effective study habits.In March 2020, when classes transitioned to remote learning, the hands

Conference Session

Technical Session M5A

Collection

2022 First-Year Engineering Experience

Authors

Katrina L Carlson, Michigan Technological University; Akua B. Oppong-Anane, Montana Technological University; Michelle E Jarvie-Eggart P.E., Michigan Technological University; Amanda Marie Singer, Michigan Technological University

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engineering such asthe impacts on society, career opportunities, along with the need for strong communication andcreativity skills, have been shown to be important to students entering the field of engineering[18].References[1] Accreditation Board for Engineering and Technology. 2020. Criteria For AccreditingEngineering Programs, 2017 – 2018 | ABET. [online] Available at: [Accessed 6 May 2020].[2] Bennett, D., Kapoor, K., Rajinder, K., & Maynard, N. (2015) “First Year Engineeringstudents: Perceptions of Engineers, Engineering Work Amongst Domestic and InternationalStudents.” The International Journal of the First Year in Higher Education. ISSN: 1838-2959,vol. 6, Issue 1, pp. 89-105.[3] Compeau, S. “The Calling of an Engineer: High School Students

Conference Session

Technical Session M5B

Collection

2022 First-Year Engineering Experience

Authors

Michael Cross, Norwich University; David M. Feinauer P.E., Virginia Military Institute; Roger J Marino P.E., Drexel University; James R McCusker PhD, Wentworth Institute of Technology; Johanna P Casale, Drexel University

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Paper ID #36388Lessons Learned from COVID That Have Been Transferred to Post-COVIDTeaching and LearningDr. Michael Cross, Norwich University Michael Cross is an Assistant Professor of Electrical and Computer Engineering teaching classes in the areas of circuits, electronics, energy systems, and engineering design. Cross received degrees from the Rochester Institute of Technology and the University of Vermont and began his academic career at UVM where he taught courses in the areas of analog and digital circuits, electronics, semiconductor physics, power electronics, and engineering design.Dr. David M. Feinauer P.E