References
- Armstrong, E. A., & Hamilton, L. T. (2013). Paying for the party. Cambridge, MA: Harvard University Press.
- Biancani, S., & McFarland, D. A. (2013). Social networks research in higher education. In M. B. Paulsen (Ed.), Higher education: Handbook of theory and research (pp. 151–215). New York, NY: Springer.
- Brown, J. C. (2017). A metasynthesis of the complementarity of culturally responsive and inquiry-based science education in K-12 settings: Implications for advancing equitable science teaching and learning. Journal of Research in Science Teaching, 54, 1143–1173.
- Brown, M. (2017). Interaction and mechanics: Understanding coursework engagement in large science lectures. Unpublished doctoral dissertation, University of Michigan, Ann Arbor.
- Callahan, K. M. (2008). Academiccentered peer interactions and retention in undergraduate mathematics programs. Journal of College Student Retention: Research, Theory and Practice, 10, 361–389.
- Carolan, B. V. (2013). Social network analysis and education: Theory, methods & applications. Thousand Oaks, CA: Sage.
- Crouch, C. H., & Mazur, E. (2001). Peer instruction: Ten years of experience and results. American Journal of Physics, 69, 970–977.
- Dasgupta, N., Scircle, M. M., & Hunsinger, M. (2015). Female peers in small work groups enhance women’s motivation, verbal participation, and career aspirations in engineering. Proceedings of the National Academy of Sciences, USA, 112, 4988–4993.
- Eccles, J. S. (2005). Subjective task value and the Eccles et al. model of achievement-related choices. In A. J. Elliot & C. S. Dweck (Eds.), Handbook of competence and motivation (pp. 105–121). New York, NY: Guilford Press.
- Freeman, S., Theobald, R., Crow, A. J., & Wenderoth, M. P (2017). Likes attract: Students self-sort in a classroom by gender, demography, and academic characteristics. Active Learning in Higher Education, 18, 1–12.
- Forsman, J., Linder, C., Moll, R., Fraser, D., & Andersson, S. (2014). A new approach to modelling student retention through an application of complexity thinking. Studies in Higher Education, 39, 68–86.
- Garcia, N. M., López, N., & Vélez, V N. (2018). QuantCrit: Rectifying quantitative methods through critical race theory. Race, Ethnicity, and Education, 21(2).
- Goodreau, S. M., Kitts, J. A., & Morris, M. (2009). Birds of a feather, or friend of a friend? Using exponential random graph models to investigate adolescent social networks. Demography, 46, 103–125.
- Gourlay, L. (2015). ‘Student engagement’ and the tyranny of participation. Teaching in Higher Education, 20, 402–411.
- Hake, R. R. (1998). Interactiveengagement versus traditional methods: A six-thousand-student survey of mechanics test data for introductory physics courses. American Journal of Physics, 66, 64–74.
- Henderson, C., & Dancy, M. (2009). Impact of physics education research on the teaching of introductory quantitative physics in the United States. Physical Review Special Topics—Physics Education Research, 5(2).
- Ivie, R., & Ray, K. N. (2005, February). Women in physics and astronomy, 2005 (AIP Publication No. R-430.02). College Park, MD: American Institute of Physics.
- Kanim, S. (2015). Physics Education Research efforts to promote diversity: Challenges and opportunities. Bulletin of the American Physical Society, 60.
- Kumar, R., Zusho, A., & Bondie, R. (2018). Weaving cultural relevance and achievement motivation into inclusive classroom cultures. Educational Psychologist, 53(2), 78–96.
- Lasry, N., Mazur, E., & Watkins, J. (2008). Peer instruction: From Harvard to the two-year college. American Journal of Physics, 76, 1066–1069.
- Matz, R. L., Koester, B. P., Fiorini, S., Grom, G., Shepard, L., Stangor, C. G., … McKay, T. A. (2017). Patterns of gendered performance differences in large introductory courses at five research universities. AERA Open, 3(4), 2332858417743754.
- Mazur, E. (2009). Farewell, lecture? Science, 323(5910), 50–51.
- McCabe, J. M. (2016). Connecting in college: How friendship networks matter for academic and social success. Chicago, IL: University of Chicago Press.
- McCullough, C. (2002). Attracting under-represented groups to engineering and computer science. Population, 20, 1–11.
- McPherson, M., Smith-Lovin, L., & Cook, J. M. (2001). Birds of a feather: Homophily in social networks. Annual Review of Sociology, 27, 415–444.
- Nespor, J. (1994). Knowledge in motion: Space, time, and curriculum in undergraduate physics and management. New York, NY: Routledge.
- Perez, T., Cromley, J. G., & Kaplan, A. (2014). The role of identity development, values, and costs in college STEM retention. Journal of Educational Psychology, 106(1), 315–329.
- Prince, M. (2004). Does active learning work? A review of the research. Journal of Engineering Education, 93, 223–231.
- Rovai, A. P. (2002). Development of an instrument to measure classroom community. The Internet and Higher Education, 5, 197–211.
- Stout, J. G., Dasgupta, N., Hunsinger, M., & McManus, M. A. (2011). STEMing the tide: Using ingroup experts to inoculate women’s selfconcept in science, technology, engineering, and mathematics (STEM). Journal of Personality and Social Psychology, 100, 255–270.
- Tinto, V (1997). Classrooms as communities: Exploring the educational character of student persistence. The Journal of Higher Education, 68, 599–623.
- Zepke, N. (2015). Student engagement research: Thinking beyond the mainstream. Higher Education Research & Development, 34, 13111323.