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1. Undergraduate Hypersonics Research: the Fourth Year of the REU Site HYPER

   https://doi.org/10.1115/GT2024-121717  

   Kauffman, Jeffrey L; Gordon, Ali P (June 2024, American Society of Mechanical Engineers)

   Progress towards future modes of transportation and energy production has uncovered significant knowledge gaps impeding technical progress. Realizing aircraft that regularly operate in supersonic and even hypersonic regimes and turbomachinery supporting carbon neutrality can be addressed only through multi-disciplinary research. The University of Central Florida (UCF) equips future engineers and scientists for research-oriented careers through a variety of programs and initiatives. One key initiative is a Research Experiences for Undergraduates Site housed within the Center for Advanced Turbomachinery and Energy Research and the Department of Mechanical and Aerospace Engineering. Now hosting its fifth cohort, the site unites multi-disciplinary projects around HYpersonic, Propulsive, Energetic, and Reusable Platforms (HYPER). Beyond graduate-level research with expert faculty, participants engage in a professional development series, industry tours, and computational software training. UCF plays a key role in preparing a workforce of young scientists for research careers in hypersonics. This paper presents data drawn from the four completed cohorts of HYPER participants on how exposing participants to the various disciplines has impacted their self-efficacy, as well as a brief summary of lessons learned along the way. With this site, UCF plays a key role in preparing a workforce of young scientists for research careers in hypersonics. 

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2. Undergraduate Hypersonics Research: Lessons From Two Years of the REU Site HYPER

   https://doi.org/10.1115/GT2022-81021  

   Kauffman, Jeffrey L.; Gordon, Ali P. (June 2022, ASME Turbo Expo 2022)

   The University of Central Florida (UCF) trains future engineers and scientists for research-oriented careers through a number of programs and initiatives. One of the most recent is a Research Experiences for Undergraduates (REU) site based on next-generation transportation and energy housed within the Center for Advanced Turbomachinery and Energy Research (CATER) and the Department of Mechanical and Aerospace Engineering (MAE). The site unites eleven multi-disciplinary research projects around HYpersonic, Propulsive, Energetic, and Reusable Platforms (HYPER). A key goal of HYPER is to equip and motivate undergraduate students to pursue graduate school and/or a research-oriented career, particularly across a diverse student participant cohort. The site has held two cohorts, engaging 25 students in a ten-week intensive experience, conducting research under the guidance of faculty mentors and graduate students. Students explored career options through industry tours, professional development seminars, and mentor-led research seminars. This paper reports the program impacts on the students and discusses several lessons learned across the cohorts. 

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3. Lessons Learned From the First-Year Enrichment Program for Engineering and Computer Science Students in the ASSURE-US Program

   Bein, D. (July 2021, 2021 ASEE Virtual Annual Conference)

   null (Ed.)

   ASSURE-US program, started in 2018 through NSF funding, targets first- and second-year engineering and computer science students, especially those underrepresented ones, enrolled at California State University, Fullerton (CSUF) to foster socio-cultural interaction, demonstration-based learning experiences, and curriculum-related research experiences of students. Our activities have affected nearly 400 out of the approximate 4700 students enrolled in engineering and computer science programs at CSUF as of Fall 2020, with many of them as first-year freshman students. In this paper, we present the preliminary findings of the two first-year enrichment programs in ASSURE-US: the student teacher interaction council (STIC) and student summer research, and lessons learned from two years’ implementation of the project in order to improve the project implementations for future years. 

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4. Lessons from an Online Multidisciplinary Undergraduate Summer Research Program

   Gobbert, Matthias K; Wang, Jianwu (December 2021, The 17th International Conference on Frontiers in Education: Computer Science & Computer Engineering (FECS'21))

   During 2018, 2019, and 2020, the UMBC CyberTraining initiative “Big Data + HPC + Atmospheric Sciences” created an online team-based training program for advanced graduate students and junior researchers that trained a total of 58 participants. The year 2020 included 6 undergraduate students. Based on this experience, the authors created the summer undergraduate research program Online Interdisciplinary Big Data Analytics in Science and Engineering that will conduct 8-week online team-based undergraduate research programs (bigdatareu.umbc.edu) in the summers 2021, 2022, and 2023. Given the context of many institutions potentially expanding their online instruction, we share our experiences how the successful lessons from CyberTraining transfer to a high-intensity full-time online summer undergraduate research program. 

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5. Advancing undergraduate research through regional community college partnerships at Portland State University

   Rice, A.; Loikith, P.; Murry, A. (December 2023, Transactions American Geophysical Union)

   Opportunities for undergraduate research in STEM programs at community colleges can be few where lower-division science curriculum emphasizes classroom and laboratory-based learning and research laboratories are limited in number. This is particularly true in the geosciences where specialized programs are extremely rare. Urban serving academic research institutions have a unique role and opportunity to partner with regional community college programs for undergraduate research early-on in student post-secondary educational experiences. Programs built for community college transfer students to urban serving undergraduate programs can serve to integrate students into major programs and help reduce transfer shock. The benefits of exploring research as an undergraduate scholar are numerous and include: building towards mastery of technical skills; developing problem-solving in a real-world environment; reading and digesting scientific literature; analyzing experimental and simulation data; working independently and as part of a team; developing a mentoring relationship with a research advisor; and building a sense of belonging and confidence in a scientific field. However, many undergraduate research internships are targeted towards junior-level STEM majors already engaged in upper-division coursework and considering graduate school which effectively excludes community college students from participating. The Center for Climate and Aerosol Research (CCAR) Research Experience for Undergraduate program at Portland State University serves to help build the future diverse research community. 10-week intern research experiences are paired with an expert faculty mentor are designed for students majoring in the natural/physical sciences but not necessarily with a background in climate or atmospheric science. Additional programmatic activities include: 1-week orientation and training using short courses, faculty research seminars, and hands-on group workshops; academic professional and career development workshops throughout summer; journal club activities; final presentations at end of summer CCAR symposium; opportunities for travel for student presentations at scientific conferences; and social activities. Open to all qualifying undergraduates, since 2014 the program recruits primarily from regional (Northwest) community colleges, rural schools, and Native American serving institutions; recruiting students who would be unlikely to be otherwise exposed to such opportunities at their home institution. Over the past 9 cohorts of REU interns (2014-2019), approximately one third of CCAR REU scholars are community colleges students. Here we present criteria employed for selection of REU scholars and an analysis of selection biases in a comparison of students from community colleges, 4-year colleges, and PhD granting universities. We further investigate differential outcomes in efficacy of the REU program using evaluation data to assess changes over the program including: knowledge, intrinsic motivation, extrinsic motivation, science identity, program satisfaction, and career aspirations. In this presentation, we present these findings along with supportive qualitative analyses and discuss their implications for community college students in undergraduate research programs in geosciences. 

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