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A Summer Math and Physics Program for High School Students: Student Performance and Lessons Learned in the Second Year
2.S. Laursen, C. Liston, H. Thiry, and J. Graf, “What good is a scientist in the classroom? Participant outcomes and program design features for a short-duration science outreach intervention in K-12 classrooms,” CBE Life Sci. Educ. 6, 49–64 (2007).
3.F. Mumba, W. F. Mejia, V. M. Chabalengula, and S. Mbewe, “Resident scientists' instructional practice and their perceived benefits and difficulties of inquiry in schools,” J. Baltic Sci. Educ. 9, 187–195 (2010).
4.H. L. Gibson and C. Chase, “Longitudinal impact of an inquiry-based science program on middle school students' attitudes toward science,” Sci. Educ. 86, 693–705 (2002).
5.School/College Partnerships; Inquiry-Based Science and Technology for All Students and Teachers, edited by M. Bruno and J. N. Chase (Hampshire College, MA, 1998).
6.D. G. Markowitz, “Evaluation of the long-term impact of a university high school summer science program on students' interest and perceived abilities in science,” J. Sci. Educ. Technol. 13, 395–407 (2004).
7.J. Bennett, J. Fry, N. Timme, and A. Maltese, “Lessons learned from a summer preparatory program on foundations in physics and calculus,” J. Coll. Sci. Teach. 41, 52–56 (2012).
8.M. J. Sharps, A. B. Hess, J. L. Price-Sharps, and J. Teh, “Heuristic and algorithmic processing in English, mathematics, and science education,” J. Psychol. 142, 71–88 (2008).
10.C. E. Hmelo-Silver, R. G. Duncan, and C. Chinn, “Scaffolding and achievement in problem-based and inquiry learning: A response to Kirschner, Sweller, and Clark (2006),” Educ. Psychol. 42, 99–107 (2007).
13.B. Wee, D. Shepardson, J. Fast, and J. Harbor, “Teaching and learning about inquiry: Insights and challenges in professional development,” J Sci. Teach. Educ. 18, 63–89 (2007).
14.M. Micari, P. Pazos, B. Streitwieser, and G. Light, “Small-group learning in undergraduate STEM disciplines: Effect of group type on student achievement,” Educ. Res. Eval. 16, 269–286 (2010).
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