Redish, E., and Hammer, D. 2009. Reinventing college physics for biologists: Explicating an epistemological curriculum. American Journal of Physics 77:629-642.
Redish, E.F., and Steinberg, R.N. 1999. Teaching physics: Figuring out what works. Physics Today 52:24-30.
Redish, E.F., Saul, J.M., and Steinberg, R.N. 1998. Student expectations in introductory physics. American Journal of Physics 66: 212-224.
Reif, F. 1995. Millikan Lecture 1994: Understanding and teaching important scientific thought processes. American Journal of Physics 63:17-32.
Renner, J.W., and Lawson, A.E. 1973. Promoting intellectual development through science teaching. The Physics Teacher 11:273.
Ross, M.J., and Otero, V.K. 2012. Challenging traditional assumptions about secondary science through the PET curriculum. 2012 Physics Education Research Conference Proceedings (S. Rebello, P. Engelhardt, and A. Churukian, eds.). AIP Press, Melville, N.Y.
Schecker, H., and Gerdes, J. 1999. Messung von Kozeptualisierungsfaehigkeit in der Mechanik zur Aussagekraft des Force Concept Inventory. Zeitschrift für Didaktik der Naturwissenschaften 5:75-89.
Sherin, B.L. 1996. The Symbolic Basis of Physical Intuition: A Study of Two Symbol Systems in Physics Instruction. Dissertation. Available at http://www.sesp.northwestern.edu/docs/dissertation/386770764374ec34c2565.pdf; accessed on May 7, 2013.
———. 2001. How students understand physics equations. Cognition and Instruction 19(4):479-541.
Singh, C. 2001. Student understanding of quantum mechanics. American Journal of Physics 69:885.
———. 2005. Impact of peer interaction on conceptual test performance. American Journal of Physics 73:446-451.
Steinberg, R.N., and Sabella, M.S. 1997. Performance on multiple-choice diagnostics and complementary exam problems. The Physics Teacher 35:150-155.
Steinberg, R.N., Oberem, G.E., and McDermott, L.C. 1996. Development of a computer-based tutorial on the photoelectric effect. American Journal of Physics 64:1370.
Tuminaro, J., and Redish, E.F. 2007. Elements of a cognitive model of physics problem solving: Epistemic games. Physical Review Special Topics—Physics Education Research 3:020101.
Van Heuvelen, A. 1991. Learning to think like a physicist: A review of research-based instructional strategies. American Journal of Physics 59:891-897.
———. 1995. Experiment problems for mechanics. The Physics Teacher 33:176.
Van Heuvelen, A., Allen, L., and Mihas, P. 1999. Experiment problems for electricity and magnetism. The Physics Teacher 37(8):482.
van Weeren, J.H.P., de Mul, F.F.M., Peters, M.J., Kramers Pals, H., and Roossink, H.J. 1982. Teaching problem-solving in physics: A course in electromagnetism. American Journal of Physics 50(8):725-732.
Vokos, S., Shaffer, P.S., Ambrose, B.S., and McDermott, L.C. 2000. Student understanding of the wave nature of matter: Diffraction and interference of particles. American Journal of Physics 68:S42-S51.
Watkins, J., and Mazur, E. 2013. Retaining students in science, technology, engineering, and mathematics (STEM) majors. Journal of College Science Teaching 42(5).
Wright, D., and Williams, C.D. 1986. A WISE strategy for introductory physics. The Physics Teacher 24:211-216.
Yerushalmi, E., Henderson, C., Heller, K., and Heller, P., and Kuo, V. 2007. Physics faculty beliefs and values about the teaching and learning of problem solving, Part I: Mapping the common core. Physical Review Special Topics—Physics Education Research 3(2):020109.
Zeldin, A.L., and Pajares, F. 2000. Against the odds: Self-efficacy beliefs of women in mathematical, scientific, and technological careers. American Educational Research Journal 37:215-246.
Zollman, D.A. 1990. Learning cycles for a large-enrollment class. The Physics Teacher 28:20-25.
———. 1996. Millikan Lecture 1995: Do they just sit there? Reflections on helping students learn physics. American Journal of Physics 64:114-119.
Zollman, D.A., Rebello, N.S., and Hogg, K. 2002. Quantum mechanics for everyone: Hands-on activities integrated with technology. American Journal of Physics 70:252-529.
Zhu, G., and Singh, C. 2012. Surveying students’ understanding of quantum mechanics in one spatial dimension. American Journal of Physics 80(3):252-259.