– There were higher rates in student success, progress, and cumulative GPA in the group of students who received the program as an intervention than a comparison group of students, matched on previously reported measures of success, who did not receive the intervention.
– The evidence presented supports the efficacy of the UC S-STEM program in increasing student progress rate for credits earned, cumulative GPA, and success.
– Progress rates for Cohort students were lower prior to program entry than after program entry, by an average of almost three credit hours per semester. This observed difference in rate means was statistically and represented a large effect size.
Current Selections
ClearQuantitative Analysis of an Urban Community College S-STEM Program
Macrosystem Analysis of Programs and Strategies to Increase Underrepresented Populations in the Geosciences
– Key approaches identified in the literature to advance participation of underrepresented populations in the geosciences include: mentoring, peer support networks and community building, bridge programs, pedagogies, undergraduate research experiences, institutional climate and culture, specific geoscience education programs.
– In mentorship of underrepresented students, interactions of minority students with their research mentor can result in increased likelihood of graduate school pursuit and in choosing a career in scientific research.
– A faculty member’s commitment to fostering the student’s academic success results in positive mentor relationship outcomes regardless of the racial similarity between mentor and mentee.
– As it pertains to the geosciences in particular, positive student outcomes of mentoring have been demonstrated in geoscience-specific programs.
– Macrosystem perspectives of peer support networks and community building efforts play an important role in fostering student engagement and retention in STEM majors and positive student outcomes.
– Many positive student outcomes are associated with bridge programs, including increased interest in the geosciences, relationship building between student and faculty members, development of research skills, knowledge gained regarding careers in STEM and the geosciences, knowledge gained about the college application process, and increased self-efficacy.
Examining the Self-Efficacy of Community College STEM Majors: Factors Related to Four-Year Degree Attainment
This study examines what experiences can improve the self-efficacy of community college students as it relates to research and whether this has an impact on their long-term career plans to pursue a STEM career.