Work in Progress: Design Activities in a Summer Engineering Program Implemented in Both Virtual and Hybrid Modality

Matthew Lucian Alexander; Michael Preuss; Breanna Michelle Weir Bailey; David Hicks; Rajashekar Reddy Mogiligidda; Velda Basak Soydas; Lihua Zuo

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Conference: 2023 ASEE Annual Conference & Exposition
Location: Baltimore , Maryland
Publication Date: June 25, 2023
Start Date: June 25, 2023
End Date: June 28, 2023
Conference Session: Design in Engineering Education Division (DEED) Technical Session 5
Tagged Division: Design in Engineering Education Division (DEED)
Tagged Topic: Diversity
Page Count: 21
DOI: 10.18260/1-2--44204
Permanent URL: https://peer.asee.org/44204
Download Count: 205

Paper Authors

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Matthew Lucian Alexander P.E. Texas A&M University - Kingsville

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Dr. Alexander graduated with a BS in Engineering Science from Trinity University, a MS in Chemical Engineering from Georgia Tech, and a PhD in Chemical Engineering from Purdue University. He worked for 25 years in environmental engineering consulting bef

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Michael Preuss Exquiri Consulting, LLC orcid.org/0000-0001-8659-6164

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Michael Preuss, EdD, is the Co-founder and Lead Consultant for Exquiri Consulting, LLC. His primary focus is providing assistance to grant project teams in planning and development, through external evaluation, and as publication support. Most of his work is on STEM education and advancement projects and completed for Minority-Serving Institutions. He also conducts research regarding higher education focused on the needs and interests of underserved populations and advancing understanding of Minority-Serving Institutions.

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Breanna Michelle Weir Bailey P.E. Texas A&M University - Kingsville

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I am a licensed Professional Engineer in the State of Texas. I have been employed at Texas A&M University-Kingsville since 2006. I currently serve as Chair of the Department of Civil and Architectural Engineering.

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David Hicks Texas A&M University-Kingsville

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David Hicks is an Associate Professor in the Electrical Engineering and Computer Science Department at Texas A&M University-Kingsville. Before joining TAMU-K he served as Associate Professor and Department Head at Aalborg University in Esbjerg, Denmark. He has also held positions in research labs in the U.S. as well as Europe, and spent time as a researcher in the software industry.

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Rajashekar Reddy Mogiligidda Texas A&M University - Kingsville

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Rajashekar Mogiligidda is working as a Lecturer in the department of Mechanical and Industrial Engineering at Texas A&M University-Kingsville since 2016. He graduated from Texas A&M University-Kingsville with a Master's in Mechanical Engineering in 2016 and currently working on his PhD in Engineering at Texas A&M University-Kingsville.

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Velda Basak Soydas

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Lihua Zuo

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Abstract

The Frank H. Dotterweich College of Engineering at Texas A&M University-Kingsville presented a 3-week long Summer Bridge Program (SBP) virtually in the summers of 2020 and 2021, and then in hybrid mode in 2022, as part of and NSF Hispanic-Serving Institution (HSI) 5-year grant. The hybrid offering of the SBP in 2022 entailed approximately 50% of participants attending virtually through synchronous Zoom sessions, and the remaining 50% attending in person at Texas A&M University-KIngsville. Improving student motivation and retention for underclassmen students was a primary motivation of the work reported herein, since challenges to persistence for Hispanic students at community college, university, and graduate levels have been noted in higher education research. This Work-in-Progress paper presents insights into impacts upon students based on their participation virtually or in-person in the embedded design project in the SBP. A major component of this SBP was team-based design projects conducted over 2-½ weeks of the program, with projects centered around faculty disciplines of chemical, civil, mechanical, electrical, and industrial engineering and computer science. The design projects for the 2022 hybrid SBP included chemical engineering projects on liquid/liquid extraction, solar-powered water pump, and desalination economics, two civil engineering projects on steel truss bridge design, two electrical engineering / computer science projects on a line-following robot, four mechanical engineering projects on 3D modeling and printing, an industrial design project on model airplanes, and a computer science project on optimization programming. The remote participants were provided time during the daily program meetings to work with their group members and faculty mentor through Zoom, while the in-person participants met face-to-face with their faculty mentor. The latter participants also had greater access to hands on material and laboratory equipment. Online pre- and post-participation surveys were administered to assess program outcomes. The surveys were completed by 37 participants in 2020, 49 in 2021, and 46 in 2022. Responses solicited addressed experience and ability in respect to general engineering skills, understanding of discipline specific concepts and licensure, and, for summer of 2022, topics discussed in seminars by library and career services personnel. Analysis of the pre- and post-participation data facilitated assessment of learning achieved by participants. Substantial and statistically significant increases in understanding were noted each year. No differences were found by gender, ethnicity/race, or instructional modality (remote vs. online). These findings, replicated across three years and with different instructional formats, demonstrate the efficacy of the SBP offering. The SBP will continue as part of the NSF grant for another two years, thus feedback on this Work-in-Progress paper from the engineering education community is desired. This work was funded by National Science Foundation grant 1928611.

Citation
Format

Alexander, M. L., & Preuss, M., & Bailey, B. M. W., & Hicks, D., & Mogiligidda, R. R., & Soydas, V. B., & Zuo, L. (2023, June), Work in Progress: Design Activities in a Summer Engineering Program Implemented in Both Virtual and Hybrid Modality Paper presented at 2023 ASEE Annual Conference & Exposition, Baltimore , Maryland. 10.18260/1-2--44204

TY - CPAPER
AB - The Frank H. Dotterweich College of Engineering at Texas A&amp;amp;M University-Kingsville presented a 3-week long Summer Bridge Program (SBP) virtually in the summers of 2020 and 2021, and then in hybrid mode in 2022, as part of and NSF Hispanic-Serving Institution (HSI) 5-year grant. The hybrid offering of the SBP in 2022 entailed approximately 50% of participants attending virtually through synchronous Zoom sessions, and the remaining 50% attending in person at Texas A&amp;amp;M University-KIngsville. Improving student motivation and retention for underclassmen students was a primary motivation of the work reported herein, since challenges to persistence for Hispanic students at community college, university, and graduate levels have been noted in higher education research. This Work-in-Progress paper presents insights into impacts upon students based on their participation virtually or in-person in the embedded design project in the SBP.
A major component of this SBP was team-based design projects conducted over 2-½ weeks of the program, with projects centered around faculty disciplines of chemical, civil, mechanical, electrical, and industrial engineering and computer science. The design projects for the 2022 hybrid SBP included chemical engineering projects on liquid/liquid extraction, solar-powered water pump, and desalination economics, two civil engineering projects on steel truss bridge design, two electrical engineering / computer science projects on a line-following robot, four mechanical engineering projects on 3D modeling and printing, an industrial design project on model airplanes, and a computer science project on optimization programming. The remote participants were provided time during the daily program meetings to work with their group members and faculty mentor through Zoom, while the in-person participants met face-to-face with their faculty mentor. The latter participants also had greater access to hands on material and laboratory equipment.
Online pre- and post-participation surveys were administered to assess program outcomes. The surveys were completed by 37 participants in 2020, 49 in 2021, and 46 in 2022. Responses solicited addressed experience and ability in respect to general engineering skills, understanding of discipline specific concepts and licensure, and, for summer of 2022, topics discussed in seminars by library and career services personnel. Analysis of the pre- and post-participation data facilitated assessment of learning achieved by participants. Substantial and statistically significant increases in understanding were noted each year. No differences were found by gender, ethnicity/race, or instructional modality (remote vs. online). These findings, replicated across three years and with different instructional formats, demonstrate the efficacy of the SBP offering.
The SBP will continue as part of the NSF grant for another two years, thus feedback on this Work-in-Progress paper from the engineering education community is desired. This work was funded by National Science Foundation grant 1928611.

AU - Matthew Lucian Alexander P.E.
AU - Michael Preuss
AU - Breanna Michelle Weir Bailey P.E.
AU - David Hicks
AU - Rajashekar Reddy Mogiligidda
AU - Velda Basak Soydas
AU - Lihua Zuo
CY - Baltimore , Maryland
DA - 2023/06/25
PB - ASEE Conferences
TI - Work in Progress: Design Activities in a Summer Engineering Program Implemented in Both Virtual and Hybrid Modality
UR - https://peer.asee.org/44204
DO - 10.18260/1-2--44204
ER -