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1. Work in Progress: Designing a Survey Instrument to Assess Graduate Student Motivation Towards Degree Completion

   https://doi.org/10.18260/1-2--44208  

   Rodriguez_Mejia, Eduardo; Bodnar, Cheryl (June 2023, ASEE Conferences)

   This work in progress paper describes the development of an instrument to assess graduate student motivation towards doctoral degree completion. Doctoral attrition rates in the United States have been estimated to be around 40% over a 10 year completion period [8]. King [8] also found that less than 20% of students complete their doctoral programs in the expected timeframe of between 3 and 4 years. These results indicate the need to better understand factors that affect graduate students' experience during their doctoral program, particularly their choice to persist, so we can ensure equal opportunities for Ph.D completion. Spaulding and Rockinson-Szapkiw [12] talk about personal factors that contribute to doctoral students’ persistence. These factors include motivation, strategies for writing the dissertation, time management, and attributes such as credibility, commitment, and increased monetary compensation. As part of this research study, we have selected to focus upon student motivation as motivation theories have been found to provide explanations for factors that influence individuals choices and actions [3]. Specifically, we have selected the Expectancy-Value Theory (EVT) of motivation because it considers social, cultural, and psychological factors [1], making it beneficial for elements that could be relevant in a graduate studies program. This work seeks to create a motivational instrument specific to an engineering graduate studies program setting. Our instrument development process began with the Engineering Motivation Survey, developed by Brown & Matusovich [2]. This survey instrument was designed to measure motivation of undergraduate engineering students towards engineering education and career choices. Ultimately, the purpose was to measure motivational factors that contribute toward choices to pursue and complete engineering degrees. The 35 likert scale questions were rephrased to focus on a graduate student setting. After the rephrasing, the draft survey was used in a Think-aloud protocol with six engineering graduate students to determine what changes may be needed to better support its new area of implementation. Upon finalization of the graduate student engineering motivation survey we will apply it to measure civil and environmental engineering graduate students’ motivation towards their doctoral degree completion as part of their participation in a Graduate Assistance in Areas of National Need (GAANN) program. 

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2. Writing Attitudes and Career Trajectories of Domestic and International Students in the United States

   Zerbe, E.; Berdanier, C.G.P. (January 2020, IJEE International Journal of Engineering Education)

   Graduate engineering students are rarely taught to write in formal disciplinary coursework, but it is an essential skill required for success in industry and academic careers. This study builds on existing work exploring doctoral writing practices, processes, and attitudes, expanding it into the disciplinary context of engineering. Engineering traditionally offers few opportunities for students to practice or develop academic writing in coursework, despite the fact that most academic milestones for graduate students are based on writing. Grounded in Academic Literacies Theory, this paper seeks to determine how engineering graduate students’ writing attitudes affect their career trajectories. This study surveyed N = 621 engineering graduate students at ten research-intensive universities in the United States using several previously established scales. These data were analyzed using Pearson correlations and Welch’s t test methods to answer the research questions. Results indicate that while most students consider writing to be a knowledge transforming activity, they overwhelmingly struggle with procrastination, perfectionism, and low-writing self-efficacy. Further, strong writing attitudes are linked statistically with the likelihood to pursue a broader set of future careers after graduate school, indicating that writing may be an invisible mediator for broadening participation in all sectors of engineering. 

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3. Correlations between graduate student writing concepts and processes and certainty of career trajectories

   https://doi.org/10.1109/FIE.2018.8658678  

   Berdanier, Catherine G.P.; Zerbe, Ellen (October 2018, 2018 IEEE Frontiers in Education Conference (FIE))

   At the graduate level, most milestones are based on the ability to write for an academic audience, whether that be for dissertation proposals, publications, or funding opportunities. Writing scholars often discuss the process by which graduate students learn to join their academic “discourse communities” through academic literacies theory. Graduate attrition researchers relate the feeling of belonging with persistence in doctoral programs; however, there has not to date been any research that directly studies engineering writing attitudes and perceptions with student career trajectories, persistence, or attrition. To meet this need, this paper presents research from a larger study analyzing graduate level engineering writing and attrition. The explicit objective of this paper is to present quantitative data relating current graduate engineering students' attitudes, processes, and concepts of academic writing with the certainty of their career trajectory. Five scales measuring aspects of writing were deployed to engineering programs at ten research intensive universities across the United States, with a final total of n=621 graduate student respondents that represent early-career, mid-career, and late-career stages of the graduate timeline. Results indicate that graduate student processes and conceptions of engineering writing correlate with the likelihood of pursuing careers in various engineering sectors after completing their graduate degree programs. 

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4. Board 362: Reimagining Civil Engineering Graduate Programs: A Research-to-Practice Approach for Shaping Future Transportation Engineers

   Butler-Morton, Brittany L; Riley, Darby R; Rodriguez_Mejia, Eduardo; Bodnar, Cheryl A; Mehta, Yusuf; Mallouk, Kaitlin (June 2024, ASEE Conferences)

   The existing curriculum and models for civil engineering graduate programs assume that graduating Ph.D. students will primarily pursue career opportunities in research or academia. However, the number of civil engineering Ph.D. graduate students continues to increase, while the number of opportunities in academia for civil engineers remains stagnant. As a result, it is becoming increasingly apparent that the civil engineering graduate programs must be reevaluated to assist students entering industry after graduation. As part of a larger research study funded through the NSF Innovations in Graduate Education (IGE), we aim to answer the following research questions: 1) How can a research-to-practice model assist students in preparing for a transportation engineering career outside of academia?, 2) What impacts does the research-to-practice graduate model have on the development of transportation engineering doctoral students’ professional identity?, 3) How does the cognitive apprenticeship framework prepare doctoral students for professional practice in transportation engineering?, and 4) What influences does the research-to-practice model have on doctoral students’ motivation toward degree completion? As part of the first phase for the project, two surveys were developed: a graduate engineering student motivation survey based on Expectancy-Value-Theory, and an instrument based on the Cognitive Apprenticeship framework. The motivation survey was based on an instrument designed and validated by Brown & Matusovich (2013) which aimed to measure undergraduate engineering students' motivation towards obtaining an engineering degree. The survey prompts were reviewed and rewritten to reflect the change in context from undergraduate to graduate school. Revised survey prompts were reviewed with a group of graduate engineering students through a think aloud protocol and changes to the instrument were made to ensure consistency in interpretation of the prompts (Rodriguez-Mejia and Bodnar, 2023). The cognitive apprenticeship instrument was derived from the Maastricht Clinical Teaching Questionnaire (MCTQ), originally designed to offer clinical educators feedback on their teaching abilities, as provided by medical students during their clerkship rotations (Stalmeijer et al., 2010). To tailor it to the context of engineering graduate students, the MCTQ's 24 items were carefully examined and rephrased. A think aloud was conducted with three civil engineering graduate students to determine the effectiveness and clarity of the cognitive apprenticeship instrument. Preliminary results show that minimal clarification is needed for some items, and suggestions to include items which address support from their mentors. The other part of the project assessment involves students completing monthly reflections to obtain their opinions on specific events such as seminars or classes, and identify their perceptions of their identity as professionals, scientists, or researchers. Preliminary results suggest that the students involved place an emphasis on developing critical thinking and planning skills to become an engineering professional, but de-emphasize passion and enjoyment. This paper will report on initial findings obtained through this first phase of the IGE project. 

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5. Investigating bifactor modeling of biology undergraduates’ task values and achievement goals across semesters.

   https://doi.org/10.1037/edu0000803  

   Greene, Jeffrey A.; Bernacki, Matthew L.; Plumley, Robert D.; Kuhlmann, Shelbi L.; Hogan, Kelly A.; Evans, Mara; Gates, Kathleen M.; Panter, Abigail T. (August 2023, Journal of Educational Psychology)

   Undergraduate science, technology, engineering, and mathematics (STEM) students’ motivations have a strong influence on whether and how they will persist through challenging coursework and into STEM careers. Proper conceptualization and measurement of motivation constructs, such as students’ expectancies and per- ceptions of value and cost (i.e., expectancy value theory [EVT]) and their goals (i.e., achievement goal theory [AGT]), are necessary to understand and enhance STEM persistence and success. Research findings suggest the importance of exploring multiple measurement models for motivation constructs, including traditional con- firmatory factor analysis, exploratory structural equation models (ESEM), and bifactor models, but more research is needed to determine whether the same model fits best across time and context. As such, we mea- sured undergraduate biology students’ EVT and AGT motivations and investigated which measurement model best fit the data, and whether measurement invariance held, across three semesters. Having determined the best- fitting measurement model and type of invariance, we used scores from the best performing model to predict biology achievement. Measurement results indicated a bifactor-ESEM model had the best data-model fit for EVT and an ESEM model had the best data-model fit for AGT, with evidence of measurement invariance across semesters. Motivation factors, in particular attainment value and subjective task value, predicted small yet statistically significant amounts of variance in biology course outcomes each semester. Our findings provide support for using modern measurement models to capture students’ STEM motivations and potentially refine conceptualizations of them. Such future research will enhance educators’ ability to benevolently monitor and support students’ motivation, and enhance STEM performance and career success. 

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