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1 – 4 of 4Freeman A. Hrabowski and Kenneth I. Maton
This chapter focuses on successful strategies for increasing the number of males who enter and succeed in science at the college level. These strategies reflect lessons we have…
Abstract
This chapter focuses on successful strategies for increasing the number of males who enter and succeed in science at the college level. These strategies reflect lessons we have learned over the years from the Meyerhoff Scholars Program, launched in 1989, for high-achieving African American students in science and engineering at the University of Maryland, Baltimore County (UMBC).
Kenneth I. Maton, Freeman A. Hrabowski and Shauna A. Pollard
Intervention strategies to increase participation and success in STEM areas vary depending on the specific goals of programs and presumably, their funding. Matyas (1991) focused…
Abstract
Intervention strategies to increase participation and success in STEM areas vary depending on the specific goals of programs and presumably, their funding. Matyas (1991) focused on minority engineering programs and found that successful programs tend to contain the following elements: (a) assistance with admission procedures;, (b) assistance with student matriculation; (c) academic support services; (d) student study center; (e) linkage of students with minority student organizations in engineering; and (f) summer engineering jobs. A recent, systematic review by a panel of experts identified eight design principles that underpin exemplary and promising higher education-based STEM interventions: (a) institutional leadership; (b) targeted recruitment; (c) engaged faculty; (d) personal attention; (e) peer support; (f) enriched research experience; (g) bridging to the next level; and (h) continuous evaluation (BEST, 2004).