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1. Learning is Quick: Evidence for the Impact of Learning Beliefs on Self-Regulated Learning

   Morphew, Jason; Shafer, Devyn; Zhang, Muxin; Girotti-Hernandez, Daniela; Stelzer, Tim (April 2023, American Educational Research Association)

   Exam preparation in introductory science courses is self-regulated. Practice testing has been shown to produce better learning then other strategies. However, many students do not use practice tests effectively when studying. This mixed-methods study examines two experiments aimed at improving examining student predictions about learning and studying. We found that scores on a mock exam impact students’ intentions for studying but not study habits. We also found that many underperforming students initially increase the use of ineffective study strategies rather than adopt a strategy change. Students who distribute studying throughout the semester and engage with course concepts more deeply demonstrate improvement and increased satisfaction. These results suggest that exam preparation interventions may need to include study strategy and metacognitive instruction. 

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2. Making STEM Equitable: An Active Learning Approach to Closing the Achievement Gap

   https://doi.org/10.15294/ijal.v5i2.23933  

   Christian Burke, Richard Luu (October 2020, International journal of active learning)

   null (Ed.)

   Active learning is a pedagogical approach which engages students in the learning process, aiming to optimize comprehension of educational material. Meta-analysis of current research shows maximum impact when applied to STEM education, especially for underrepresented minority (URM) students and students with a low GPA. This study focuses on student success, progression, completion and STEM interest within the General Chemistry course sequence at Blinded City College, which has a 51% Hispanic student population. Data from classes implementing active learning pedagogy consistently had higher success and progression rates, as well as increased progression success from General Chemistry 1 to General Chemistry 2, with a greater positive impact and completion success among Hispanic students compared to students from Asian populations, whose progression success was negatively impacted through use of active learning pedagogy in comparison to traditional lecture-based coursework. Comparison of scores for the American Chemical Society General Chemistry Exams, from this community college and at a national level, indicates active learning students perform equally well on chemistry standardized tests. In total, active learning classes were most beneficial to Hispanic students, and should be designed according to course level, be scaffolded to future coursework to maximize impact through development of STEM active learning pathways in which students are immersed in active learning classrooms continuously through undergraduate STEM academic coursework. 

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3. Importance of Academic Legacy on Student Success in First- and Second-Semester General Chemistry

   https://doi.org/10.31756/jrsmte.631  

   Shelton, G. Robert; Villalta-Cerdas, Adrian; Jang, Ben; Dubrovskiy, Anton; Mamiya, Blain; Weber, Rebecca; Broadway, Susan; Williamson, Vickie; Powell, Cynthia; Mason, Diana (September 2023, Journal of Research in Science, Mathematics and Technology Education)

   This investigation sought to elucidate the influence of students' academic legacy on their prior knowledge and course outcomes providing crucial insights for educators who teach general chemistry. This six-semester analysis involved 6,914 students enrolled in classes across nine Texas universities. Explored were personal circumstances associated with students' successes and failures that influenced performance in on- and off-sequence, first- and second-semester general chemistry (Chem 1 and Chem 2). Students' academic legacy based on their categorization as first generation (neither grandparent nor parent/guardian with a 4-year bachelor's degree), second generation (at least one grandparent or parent/guardian with a bachelor's degree), or third generation (at least one grandparent and at least one parent/guardian hold a bachelor's degree) was investigated. Of the students in the dataset 33.8% (n = 2,340) self-identified as Hispanic. Results for Hispanic and non-Hispanic students indicated that first-generation students struggled more with Chem 1 and Chem 2 than students in the other two legacy groups. As students' academic legacy extended, they were more apt to succeed in general chemistry. Second- and third-generation students demonstrated stronger prior high-school chemistry backgrounds and were enrolled in more advanced mathematics courses. As expected, students with stronger academic backgrounds in chemistry and mathematics scored higher on the diagnostic MUST (Math-Up Skills Test), had greater self-efficacy relative to their preparation to succeed, and reported fewer paid work hours. First-generation students on the average entered with lower diagnostic MUST scores, felt less prepared to succeed, and disclosed a greater need to be employed. 

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4. Personal Characteristics Influencing College Readiness of Hispanic Students in a STEM Gateway Course, First-Semester General Chemistry

   Villalta-Cerdas, A.; Dubrovskiy, A.; Mamiya, B.; Walker, DR; Powell, CB; Broadway, S; Weber, R; Shelton, GR; Mason, D. (January 2022, Journal of college science teaching)

   Wendy Rubin (Ed.)

   This study is an exploratory comparison of 69 Hispanic students enrolled in first-semester general chemistry (Chem I) who attended either a Hispanic-Serving or emerging Hispanic-Serving Institution and were not successful in Chem I. Students’ automaticity skills (what can be done without the aid of a calculator) in arithmetic and quantitative reasoning were analyzed based on students’ personal characteristics such as gender, prior knowledge in chemistry and mathematics, entry college (i.e., STEM or not), and parents’ academic background. Findings indicate that without basic automaticity skills, students enter Chem I at a deficit, but these at-risk students can be identified early in the semester to help them succeed. Results also indicate that arithmetic automaticity is more influential than quantitative reasoning in predicting academic success. A suggested high-impact practice is presented as a possible correction for these deficits. 

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5. Evaluating the impact of peer supplemental instruction on STEM course outcomes: A five-semester study at an HBCU

   https://doi.org/10.32674/4baf1w85  

   Brown, Lisa D; Winborne, Duvon G (May 2025, American Journal of STEM Education)

   This study examined the impact of Supplemental Instruction (SI) on student performance in introductory STEM courses at a Historically Black College or University (HBCU). Using a non-experimental, ex post facto design, academic outcomes from 105 courses and 2,829 student grades were analyzed over five semesters. While overall course performance scores did not significantly differ between SI and non-SI groups, SI-supported courses showed significantly higher frequencies of “B” and “C” grades and a greater proportion of passing rates. These findings suggest that SI may improve academic outcomes for students at risk of failure. Institutions seeking to reduce attrition in gateway STEM courses—especially among underrepresented students—should consider SI as a scalable, equity-driven academic support model. 

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