ڴھ:DUAN F1021
Research Interests:
Noah Finkelsteinis a Professor of Physics at the 鶹Ѱ. He serves as a PI of the Physics Education Research (PER) group and was a founding co-Director Center for STEM Learning, which has served as one of eight national demonstration sites for the Association of American Universities’ (AAU) STEM Education Initiative. He co-directs the national Network of STEM Education Centers.
Finkelstein’s research focuses on studying the conditions that support students’ interest and ability in physics – developing models of context. In parallel, he conducts research on how educational transformations get taken up, spread, and sustained. These research projects range from the specifics of student learning particular concepts, to the departmental and institutional scales of sustainable educational transformation.His research has resulted in over 150 publications.
He is increasingly involved in education policy. He has testified before the US Congress on STEM education at the undergraduate and graduate levels.He serves on many national boards including the Board of Trustees for the Higher Learning Commission, is a Technical Advisor to the AAU, sits on the National Academies’ Roundtable on STEM education, and very involved in the Association of Public and Land-grant Universities’ efforts in STEM education. He has chaired both the American Physical Society’s Committee on Education and PER Topical Group.He is a Fellow of both the American Physical Society and the American Association for the Advancement of Science, and a Presidential Teaching Scholar and the inaugural Timmerhaus Teaching Ambassador for the University of Colorado system.
Selected Publications:
- J. Hoehn and N. Finkelstein, “Investigating the dynamics of ontological reasoning across contexts in quantum physics,” Physical Review: Phys. Rev. Phys. Educ. Res.15, 010124. (2019)
- S. Hyater-Adams, C. Fracchiolla, T. Williams, N. Finkelstein, K. Hinko, “Deconstructing black physics identity: Linking individual and socialconstructs using the critical physics identity framework,” Phys. Rev. Phys. Educ. Res.15, 020115, editors selection. (2019)
- M Dennin, A Feig, N Finkelstein, A F Greenhoot, M Hildreth, A K. Leibovich, J D. Martin, M B. Moldwin. D K. O’Dowd, L A. Posey, Z D. Schultz, T L. Smith, E R. Miller, “Aligning Practice to Policies: Changing the Culture to Recognize & Reward Teaching at Research Universities,” CBE Life-Sciences, 16(4). (2017)
- J. Corbo, D. Reinholz, M Dancy, S Deetz, and N Finkelstein, “Framework for transforming departmental culture to support educational innovation,” Phys. Rev. Phys. Educ. Res. 12, 010113 (2016)
- B M. Zwickl, N Finkelstein, H. J. Lewandowski, Incorporating Learning Goals About Modeling into an Upper-Division Physics Laboratory Experiment Am J. Phys, in press. (2014).
- C. Henderson, A. Beach and N.D. Finkelstein, ““Facilitating Change in Undergraduate STEM Instructional Practices: An Analytic Review of the Literature”J. Research Science Teaching,48(8), 952-984 (2011).
- K. Hinko, P Madigan, E Miller, and N.D. Finkelstein, “Characterizing pedagogical practices of university physics students ininformal learning environments,” Phys. Rev. Phys. Educ. Res. 12, 010111
- A. Mikaye, L. Kost, N.D. Finkelstein, S. Pollock, G. Cohen, T. Ito, “Reducing the Gender Achievement Gap in College Science: A Classroom Study of Values Affirmation" Science 330(6008) pp. 1234-1237 (Nov 26, 2010)
- W.K. Adams, K.K. Perkins, M. Dubson, N.D. Finkelstein, and C.E. Wieman, “A new instrument for measuring student beliefs about physics and learning physics: the Colorado Learning Attitudes about Science Survey” Physical Review, Special Topics: Physics Education Research. 2,1,010101, 14 pgs, (2006).
- N.D. Finkelstein and S.J. Pollock, “Replicating and Understanding Successful Innovations: Implementing Tutorials in Introductory Physics" Physical Review, Spec Topics: Physics Education Rsrch, 1, 010101, (2005).