To combat math underperformance among incoming STEM majors, Rice University designed a summer bridge program with National Science Foundation (NSF) S-STEM funding that included an intensive calculus course. Students invited to participate in the program were identified as being underprepared for STEM classes based on their standardized test scores, high school STEM coursework, and socioeconomic status. One of the program’s goals is to improve students’ preparation for the advanced math courses required for all STEM majors at Rice. The bridge program is designed to teach the material that has historically been most challenging for underprepared students, meaning the math content covered primarily second-semester calculus topics.
We explored the impact of bridge program participation on math performance in first and second-semester math. First, we examined group differences in math preparation. Though program administrators attempt to create equivalent bridge and comparison groups, the bridge program is optional, meaning group assignment is not completely random. Bridge students were less prepared than comparison students on number of high school calculus AP (or equivalent) credits received. We analyzed group differences in final class grades from 2012-2017 among the comparison group, the bridge group, and the rest of the class (i.e. non-comparison and non-bridge), standardizing grades using Z-scores. Planned contrasts found that bridge students performed slightly better than, but not significantly different from, comparison students in first-semester math. Conversely, planned contrasts found that the bridge group significantly outperformed the comparison group in second-semester math.
These results suggest that bridge program exposure to calculus may improve performance relative to a comparison group, which is especially noteworthy because bridge students are the least math-prepared STEM students entering the university. Future research will analyze outcomes in more advanced math classes. We will use these findings to refine the bridge program’s approach to teaching students how to succeed at collegiate-level math classes and, ultimately, as STEM majors at Rice.
Brittany Bradford is a fourth-year graduate student in industrial and organizational psychology at Rice University, working with Dr. Margaret Beier. Her research interests include education, learning, and motivation.
Margaret Beier is an Associate Professor of Psychology at Rice University in Houston, TX. She received her B.A. from Colby College, and her M.S. and Ph.D. degrees from the Georgia Institute of Technology. Margaret’s research examines the predictors of performance in educational and occupational settings. In particular, she is interested in the effects of examining gender, age, ability, personality, motivation, and self-regulation on a range of outcomes. She is a member of the American Educational Research Association and a Fellow of the Society for Industrial and Organizational Psychologists.
Michael Wolf is Professor of Mathematics at Rice University as well as Faculty Director of the Rice Emerging Scholars Program, an initiative he co-founded in 2012. The Rice Emerging Scholars program is a comprehensive 2-4 year program that begins the summ
Megan McSpedon a graduate student in Industrial/Organizational Psychology at Rice University. Her research interests include the future of work, school to work transition, and learning throughout the lifespan.
Dr. Matthew Taylor is Associate Provost at Rice University, where he oversees the Office of Undergraduate Research and Inquiry, co-directs the Rice Emerging Scholars Program (RESP), and provides strategic leadership for university efforts to support first-generation and low-income students. He earned B.A. and B.B.A. degrees at Southern Methodist University and Master's and Ph.D. degrees at Rice University.
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