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Displaying 1 - 10 of 32 results
Ong, M., Wright, C., Espinosa, L., & Orfield, G. (2011). Inside the double bind: A synthesis of empirical research on undergraduate and graduate women of color in science, technology, engineering, and mathematics. Harvard Educational Review, 81(2), 172-208.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Descriptive Analysis
Costello, C. (2012). Increasing opportunities for low-income women and student parents in science, technology, engineering, and math at community colleges. Washington, DC: Institute for Women’s Policy Research.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Descriptive Analysis
Kniola, D., Chang, M., & Olsen, D. (2012). Transformative graduate education programs: An analysis of impact on STEM and non-STEM Ph.D. completion. Higher Education, 63(4), 473–495. doi:10.1007/s10734-011-9453-8
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Causal Impact Analysis
Outcome Effectiveness:- Education and skills gains-Low-Favorable impactsEducation and skills gains
Student enrollment in high school AP sciences and calculus: how does it correlate with STEM careers?
Robinson, M. (2003). Student enrollment in high school AP sciences and calculus: how does it correlate with STEM careers? Bulletin of Science, Technology & Society, 23, 265–273.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Causal Impact Analysis
Outcome Effectiveness:- Education and skills gains-Low-Favorable impactsEducation and skills gains
Riegle-Crumb, C., & King, B. (2011). Questioning a white male advantage in STEM: Examining disparities in college major by gender and race/ethnicity. Educational Researcher, 39(9), 656-664.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Descriptive Analysis
Sonnert, G., & Fox, M. (2012). Women, men, and academic performance in science and engineering: The gender difference in undergraduate grade point averages. Journal of Higher Education, 83(1), 73-101.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Descriptive Analysis
Rice, K., Lopez, F., Richardson, C., & Stinson, J. (2013). Perfectionism moderates stereotype threat effects on STEM majors’ academic performance. Journal of Counseling Psychology, 60(2), 287-293.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Causal Impact Analysis
Outcome Effectiveness:- Education and skills gains-Low-No impactsEducation and skills gains
Crumpton-Young, L., Elde, A., & Ambrose, K. (2014, June). Mentoring practices proven to broaden participation in STEM disciplines. Paper presented at 2014 American Society for Engineering Education Annual Conference, Indianapolis, IN.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Descriptive Analysis
Oh, S., & Lewis, G. (2011). Stemming inequality? Employment and pay of female and minority scientists and engineers in the federal and private sectors. Social Science Journal, 48(2), 397-403.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Descriptive Analysis
Frehill, L. (2012). Gender and career outcomes of U.S. engineers. International Journal of Gender, Science and Technology, 4(2), 149-166.
Topic Area: Women in Science, Technology, Engineering, & Math (STEM)
Study Type: Descriptive Analysis