skip to main content


Title: Scientific Skill Acquisition and Identity of Visiting Scholars in a Research Experience for Undergraduates (REU) Site
This paper describes a preliminary analysis of a summer Research Experience for Undergraduates (REU) Site sponsored by the biomedical engineering department at a large public institution in the southwest United States. Data were compiled from the 2018 and 2019 cohorts of the program.Twenty-four participants from different undergraduate majors and universities were selected from competitive applicant pools, paired with a research mentor in the department, and tracked over each program’s duration. The participants were given a 37-question survey upon arrival and after the completion of the 10-week summer program (i.e., pre-test and post-test). These questions were broadly split among four categories to evaluate the participants’ comfort with (1) scientific writing, (2) scientific presentation, and students’ strength of association with the identities and careers of (3) researchers and (4) engineers. Students reported significant increases in their scientific writing skills and tended to identify more as researchers after the program. Conversely, students noted little change in their ability to present in a scientific setting and reported that their identity as engineers was not stronger. Separate focus groups with the visiting scholars and their graduate student mentors were conducted after the program to identify the strengths and weaknesses of the current iteration of the REU program. Possible improvements to the REU are proposed at the end of the paper.  more » « less
Award ID(s):
1757885
NSF-PAR ID:
10147301
Author(s) / Creator(s):
; ; ; ;
Date Published:
Journal Name:
2020 ASEE Gulf-Southwest Annual Conference
Format(s):
Medium: X
Sponsoring Org:
National Science Foundation
More Like this
  1. Need/Motivation (e.g., goals, gaps in knowledge) The ESTEEM implemented a STEM building capacity project through students’ early access to a sustainable and innovative STEM Stepping Stones, called Micro-Internships (MI). The goal is to reap key benefits of a full-length internship and undergraduate research experiences in an abbreviated format, including access, success, degree completion, transfer, and recruiting and retaining more Latinx and underrepresented students into the STEM workforce. The MIs are designed with the goals to provide opportunities for students at a community college and HSI, with authentic STEM research and applied learning experiences (ALE), support for appropriate STEM pathway/career, preparation and confidence to succeed in STEM and engage in summer long REUs, and with improved outcomes. The MI projects are accessible early to more students and build momentum to better overcome critical obstacles to success. The MIs are shorter, flexibly scheduled throughout the year, easily accessible, and participation in multiple MI is encouraged. ESTEEM also establishes a sustainable and collaborative model, working with partners from BSCS Science Education, for MI’s mentor, training, compliance, and building capacity, with shared values and practices to maximize the improvement of student outcomes. New Knowledge (e.g., hypothesis, research questions) Research indicates that REU/internship experiences can be particularly powerful for students from Latinx and underrepresented groups in STEM. However, those experiences are difficult to access for many HSI-community college students (85% of our students hold off-campus jobs), and lack of confidence is a barrier for a majority of our students. The gap between those who can and those who cannot is the “internship access gap.” This project is at a central California Community College (CCC) and HSI, the only affordable post-secondary option in a region serving a historically underrepresented population in STEM, including 75% Hispanic, and 87% have not completed college. MI is designed to reduce inequalities inherent in the internship paradigm by providing access to professional and research skills for those underserved students. The MI has been designed to reduce barriers by offering: shorter duration (25 contact hours); flexible timing (one week to once a week over many weeks); open access/large group; and proximal location (on-campus). MI mentors participate in week-long summer workshops and ongoing monthly community of practice with the goal of co-constructing a shared vision, engaging in conversations about pedagogy and learning, and sustaining the MI program going forward. Approach (e.g., objectives/specific aims, research methodologies, and analysis) Research Question and Methodology: We want to know: How does participation in a micro-internship affect students’ interest and confidence to pursue STEM? We used a mixed-methods design triangulating quantitative Likert-style survey data with interpretive coding of open-responses to reveal themes in students’ motivations, attitudes toward STEM, and confidence. Participants: The study sampled students enrolled either part-time or full-time at the community college. Although each MI was classified within STEM, they were open to any interested student in any major. Demographically, participants self-identified as 70% Hispanic/Latinx, 13% Mixed-Race, and 42 female. Instrument: Student surveys were developed from two previously validated instruments that examine the impact of the MI intervention on student interest in STEM careers and pursuing internships/REUs. Also, the pre- and post (every e months to assess longitudinal outcomes) -surveys included relevant open response prompts. The surveys collected students’ demographics; interest, confidence, and motivation in pursuing a career in STEM; perceived obstacles; and past experiences with internships and MIs. 171 students responded to the pre-survey at the time of submission. Outcomes (e.g., preliminary findings, accomplishments to date) Because we just finished year 1, we lack at this time longitudinal data to reveal if student confidence is maintained over time and whether or not students are more likely to (i) enroll in more internships, (ii) transfer to a four-year university, or (iii) shorten the time it takes for degree attainment. For short term outcomes, students significantly Increased their confidence to continue pursuing opportunities to develop within the STEM pipeline, including full-length internships, completing STEM degrees, and applying for jobs in STEM. For example, using a 2-tailed t-test we compared means before and after the MI experience. 15 out of 16 questions that showed improvement in scores were related to student confidence to pursue STEM or perceived enjoyment of a STEM career. Finding from the free-response questions, showed that the majority of students reported enrolling in the MI to gain knowledge and experience. After the MI, 66% of students reported having gained valuable knowledge and experience, and 35% of students spoke about gaining confidence and/or momentum to pursue STEM as a career. Broader Impacts (e.g., the participation of underrepresented minorities in STEM; development of a diverse STEM workforce, enhanced infrastructure for research and education) The ESTEEM project has the potential for a transformational impact on STEM undergraduate education’s access and success for underrepresented and Latinx community college students, as well as for STEM capacity building at Hartnell College, a CCC and HSI, for students, faculty, professionals, and processes that foster research in STEM and education. Through sharing and transfer abilities of the ESTEEM model to similar institutions, the project has the potential to change the way students are served at an early and critical stage of their higher education experience at CCC, where one in every five community college student in the nation attends a CCC, over 67% of CCC students identify themselves with ethnic backgrounds that are not White, and 40 to 50% of University of California and California State University graduates in STEM started at a CCC, thus making it a key leverage point for recruiting and retaining a more diverse STEM workforce. 
    more » « less
  2. The development of inclusive leaders is essential for the success of future engineering and our nation. Equipping students with vital leadership-enabling competencies is necessary to develop a workforce that is prepared to act ethically, and responsibly, and tackle unforeseen challenges in the future. Inclusive leaders, or leaders that are self-aware, empathetic, and prioritize diversity, equity, and inclusion in their decision-making, are essential for the forward progress of engineering. A growing body of literature highlights the numerous ways in which students may develop leadership skills outside of the classroom through involvement in out-of-class activities (e.g., internships, clubs, sports, and research experiences). Research Experiences for Undergraduates (REUs) may provide students with a unique opportunity to develop leadership-enabling competencies that will prepare them for leadership in graduate school, the engineering industry, or academia. The goal of this research was to identify how students’ engagement in an engineering education virtual REU site contributed to their development of essential leadership-enabling competencies. The research question guiding this study was ‘What inclusive leadership-enabling competencies and skills did engineering students learn and develop during an engineering education Summer REU program?’ Qualitative data was collected via weekly open-ended surveys from 9 students (7 women, 2 men) participating in an REU over 9 weeks. Participants in this study consisted of students from underrepresented groups in engineering (e.g., Black, Latinx, women, students from low SES backgrounds, or first-generation students), attending large public research universities across the United States. This study implemented mixed methods to understand what leadership competencies were occurring most frequently and how students were learning and developing these competencies. A combination of text mining for frequency (quantitative analysis) and deductive and inductive coding (qualitative analysis) was used to analyze the data. A codebook was developed based on the leadership-coupled professional competencies that engineering industry leaders identified as essential for engineers entering the workforce. Researchers also allowed for other competencies and leadership-enabling skills to emerge from the data. Findings from this work indicate that students were developing a vast amount of inclusive leadership knowledge and skills from participating in the virtual REU site. This paper highlights, through the use of word clouds and text mining software, the many leadership-enabling competencies that participants developed throughout the summer research experience (e.g., learning, communication, adaptability, self-awareness, balance, networking, etc.). Further, students were able to develop digital literacy, increased communication skills, knowledge of career pathways, intrapersonal growth, and interpersonal relations. This work offers a novel contribution to the literature in understanding how students can develop technical engineering and research skills as well as professional and leadership skills in the same space. Findings from this work help to illuminate the benefits of this virtual REU site focused on engineering education research resulting in terms of developing inclusive leadership skills. Implications for future REU programs, students interested in developing leadership skills, engineering graduate programs, academia, and industry employers are outlined. 
    more » « less
  3. Since the summer of 2006, the NSF-funded AERIM Research Experience for Undergraduates (REU) program in the department of Mechanical Engineering at Oakland University has been offering rich research, professional development, networking and cohort-building experiences to undergraduate students in the science, technology, engineering and math (STEM) fields. With a focus on hands-on automotive and energy research projects and a proximity to many automotive companies, the program has been successful at attracting a diverse group of students. In fact, a total of 104 students from 70 different universities have participated in the program over the past 15 years, with about 70% of the participants coming from groups that have traditionally been underrepresented in engineering (women in particular). Most research projects have been team-based and have typically involved experimental and analytical work with perhaps a handful of numerical simulation-based projects over the years. Prior assessment has shown that students greatly valued and benefited from interacting with faculty mentors, industry professionals, industry tours, and each other. As a result of limitations placed on in-person meeting and on-campus activities impacted by the Covid-19 pandemic, the program had to pivot to a virtual format in the summer of 2021. This virtual format brought about several challenges and opportunities, which will be discussed in this paper. Despite the virtual format, the program was successful at attracting a diverse group of students in 2021. Twelve undergraduate students from eight different institutions took part remotely in the program and encompassed several time zones ranging from Eastern Standard Time to Alaska Standard Time. The 2021 cohort included seven women, three underrepresented minorities, and two students with a reported disability. Also noteworthy is the fact that half of the students were first generation in college students. While the PIs were happy with the student make up, running the program in a virtual format was very challenging. For one, what was traditionally a hands-on, experimental research program had to pivot to completely simulation/analytical based projects. This brought about issues related to remote access to software, time lags and difficulties with engaging students while computer simulations were running remotely. While the program was able to offer several seminars and meetings with industry professionals in a virtual fashion, it was not possible to provide industry tours or the casual conversations that would spontaneously occur when meeting face to face with industry professionals. Finally, with students logging in from their homes across the country and across different time zones rather than living together in the Oakland University dorms, the usual bonding and group interactions that would normally occur over the summer were difficult to replicate. In this paper we discuss what was learned from these challenges and how the virtual format also offered opportunities that will be utilized in future years. 
    more » « less
  4. This study expands on our prior work of the Research Experience for Undergraduates (REU) SITE program to provide data on participant preparation for success in graduate school and their perceptions of the program. In the first two studies from our initial cohort, we summarized that we effectively provided an independent research experience, increased participants perception of preparedness for success in the graduate application process and graduate school and increased their ability to communicate about Biomechanics and Mechanobiology (BMMB)1. In the follow up study we showed that by the end of the program students believed they were better prepared for success in graduate school, two students co-authored publications from their projects, and the majority were enrolled in a graduate program2. Here we share data across our first two cohorts which expands our outcomes associated with graduate school preparation and student perceptions of the REU SITE program. We used our site-licensed online survey tool Qualtrics to administer the surveys for data collection. We used the same pre- and post-survey data to assess changes for both ten student cohorts over the 10-week period. The data were analyzed using a paired t-test from GraphPad Prism 9.3.0 software. This study confirmed the findings from the first two studies while highlighting new information. The new analysis conducted across both cohorts showed participation in the program influenced student interest in applying to graduate school p< 0.05. Additionally, the data show that participants felt more prepared to conduct independent research after participating p<0.05. Of the twenty participants the twelve students who have graduated or will be graduating before summer 2023 are enrolled in a graduate program or have applied for admission. Six of those yet to graduate reported they plan to pursue a graduate degree after completing their BS degree. Additionally, students felt the program prepared them to find and read research articles p<0.01 and participate at a conference p<0.05, skills that will be beneficial for success in a graduate program. Ninety-five percent of the participants indicated the REU SITE met or exceeded their expectations and would recommend the program to others. Similarly, 95% were satisfied with the mentorship of their graduate ambassador and 100% indicated they were satisfied with the mentorship of their faculty. Additionally, we were excited to find that after an adjustment to our program after the first cohort, the second cohort felt prepared to contribute to the field of BMMB p<0.05. This was an objective of the program that was not achieved with the first cohort. Lastly, 85% of participants were from underrepresented minority (URM) backgrounds and 70% were female. Thus, the enrollment of our participants in graduate programs continues to enhance diversity in engineering and the field of BMMB. Going forward we will continue to track the progress of participants and the careers they choose after completion of their graduate degrees. We will also continue to use student feedback to improve the experience for participants. 
    more » « less
  5. Underrepresented minorities (URM’s) and women comprise 30% and 50% of the U.S. population, respectively. In the Biomedical Engineering (BME) discipline they compose 8% and 37% respectively1. Thus, the enrollment of these groups is still below their representation in society. The BUCKEYE Research Experience for Undergraduates (REU) SITE program aims to help address this disparity by 1.) increasing the number of traditionally underrepresented students pursing a graduate degree and preparing them for success in the application process and graduate school, 2.) providing hands-on scientific research experience in Biomechanics and Mechanobiology (BMMB), 3.) and developing the participants ability to comprehend, contribute, and communicate advances in BMMB. To do this our students participated in a 10-week research immersion where they participated in research, professional development and social activities. Our cohort consisted of ten participants all of whom were from a traditionally underrepresented background and 70% were female. To assess the outcomes from the program we administered survey’s using our site-licensed online survey tool Qualtrics. We used a combination of surveys including pre-and post-surveys to assess program outcomes. Surveys were administered to faculty mentors and participants. The data were analyzed with GraphPad Prism 8.2.1 software using a paired t-test or average. The data indicate that by the end of the program students were conducting independent research p<0.01. Overwhelmingly students believed the program prepared them for success in the application process and graduate school, p<0.04 and p<0.02, respectively. Further, by the end of the program students believed they were better able to communicate about the field of BMMB, p<0.04. Seventy-one percent of faculty mentors who responded to the survey indicated their student produced data that could be included in a future publication. Out of the ten participants four are now enrolled in a graduate program, three are currently applying to one of our graduate programs involved in our REU, and another three are not yet ready to graduate. Therefore, the first four students in our cohort to receive their BS degrees are now enrolled in a graduate program contributing to an increase in representation of underrepresented students. We will continue to track whether the remaining students ultimately apply to or enroll in our or another graduate program and the impact of the REU SITE on our graduate program diversity. Moving forward we will modify our approaches to help participants connect the outcomes of their research to their ability to contribute to the field of BMMB, so they are able to identify with the contributions the faculty mentors have noticed. 
    more » « less