Collection

2025 ASEE -GSW Annual Conference

Authors

Haiying Huang, The University of Texas at Arlington; Monica Franco, The University of Texas at Arlington

Tagged Topics

Diversity

Paper ID #49649Integrating Peer-Led-Team Learning (PLTL) and Design Thinking to improvestudent success in Engineering StaticsProf. Haiying Huang, The University of Texas at Arlington Prof. Haiying Huang is a professor of Mechanical and Aerospace Engineering and the Director of Engineering Education at the College of Engineering at the University of Texas Arlington. Her research interests include design thinking pedagogy, collaborative learning, and faculty development. ©American Society for Engineering Education, 2025 1

Collection

2025 ASEE -GSW Annual Conference

Authors

Mia K. Markey, University of Texas at Austin; Anakaren Romero Lozano, University of Texas at Austin; Kristin M Connelly, University of Texas at Austin

Tagged Topics

Diversity

CareerEngagement (https://careerengagement.utexas.edu/graduate-students/). In addition to our state ofthe art research facilities, our campus also offers numerous opportunities for personal growth andrelaxation, including the Blanton Museum of Art (https://blantonmuseum.org/), Moody Center(https://moodycenteratx.com/), and Recreational Sports (https://www.utrecsports.org/).At the department level, we offer peer-mentoring and weekly professional development seminarsthrough the BMEntored program. We are proud of how our students support each other throughstudent organizations such as the BME Graduate Student Society(https://sites.google.com/view/utbmegss/home) and Graduates for Underrepresented Minorities(https://www.gumut.org/). We invite you to stay

Collection

2025 ASEE -GSW Annual Conference

Authors

Alexander Hernandez, West Texas A&M University; Sanjoy Bhattacharia, West Texas A&M University; Sarah Petters, University of California, Riverside; Markus Petters, University of California, Riverside

Tagged Topics

Diversity

as phasechange, phase transition temperature, crystallization, and ice nucleation, in existing universitycourses. We educated a diverse group of students and exposed them to state-of-the-art techniquesearly in their academic careers to consider pursuing a STEM career and higher education. Asoutreach, we also trained graduate students, as well as students from an adjacent communitycollege (CC). The developed curricular activities provided students with experience inexperimentation, data analysis, and technical writing. Based on the ABET assessment of learningoutcomes, we assessed our goals to educate students on 1) using multidisciplinary science,engineering, and mathematical skills to evaluate and address complex issues emergent in