References
- Akatugba, A. H., & Wallace, J. (2009). An integrative perspective on students' proportional reasoning in high school physics in a West African context. International Journal of Science Education, 31(11), 1473-1493. https://doi.org/10.1080/09500690802101968
- Confrey, J. (1991). Learning to listen: A student's understanding of powers of ten. E. von Glasersfeld (ed.), Radical Constructivism in mathematics education, 111-138. Kluwer Academic Publishers. Netherlands.
- Dhindsa, H. S. (2002). Pre-service science teachers' conceptions of pH. Australian Journal of Educational Chemistry, 60, 19-24.
- Drane, D., Swarat, S., Hersham, M., Light, G., & Mason, T. (2009). An evaluation of the efficacy and transferability of a nanoscience module. Journal of Nano Education, 1(1), 8-14. https://doi.org/10.1166/jne.2009.001
- Hilton, T. L., & Lee, V. E. (1988). Student interest and persistence in science: Changes in the educational pipeline in the last decade. Journal of Higher Education, 59(5), 510-526. https://doi.org/10.2307/1981701
- Jenkins, E. W. (1994). Public understanding of science and science education for action. Journal of Curriculum Studies, 26(6), 610-611.
- Jones, M. G., Taylor, A., Minogue, J., Broadwell, B., Wiebe, E., and Carter, G. (2006). Understanding scale: Powers of ten. Journal of Science Education and Technology, 16(2), 191- 202.
- Lin, J-W., & Chiu, M-H. (2007). Exploring characteristics and diverse sources of students' mental models in acids and bases. International Journal of Science Education, 29(6), 771-803. https://doi.org/10.1080/09500690600855559
- Lin, J-W., & Chiu, M-H. (2010). The mismatch between students' mental models of acids/bases and their sources and their teacher's anticipations thereof. International Journal of Science Education, 32(12), 1617-1646. https://doi.org/10.1080/09500690903173643
- Nakhleh, M. B., Krajcik, J. S. (1994). The effect of level of information as presented by different technologies on students' understanding of acid, base and pH concepts. Journal of Research in Science Teaching, 31(10), 1077-1096. https://doi.org/10.1002/tea.3660311004
- Ross, B., & Munby, H. (1991). Concept mapping and misconceptions: A study of highschool students' understanding of acids and bases. International Journal of Science Education, 13(1), 11-24. (EJ 442 063) https://doi.org/10.1080/0950069910130102
- Osborne, J., & Collins, S. (2001). Pupils' views of the role and value of the science curriculum: a focus-group study. International Journal of Science Education, 23(5), 441-467. https://doi.org/10.1080/09500690010006518
- Osborne, J., Simon, S., & Collins, S. (2003). Attitudes towards science: a review of the literature and its implication. International Journal of Science Education, 25(9), 1049-1079. https://doi.org/10.1080/0950069032000032199
- Park, E-J., & Light, G. (under review). Student understanding of scale: from additive to multiplicative reasoning in the construction of scale representation by ordering objects in a number line.
- Schmidt, H. J. (1991) A label as a hidden persuader: Chemists' neutralization concept. International Journal of Science Education, 13(4), 459-471. https://doi.org/10.1080/0950069910130409
- Smith, E., & Confrey, J. (1994). Multiplicative structures and the development of logarithms: What was lost by the invention of function? Eds. G, Harel, & J, Confrey. The development of multiplicative reasoning in the learning of mathematics. State University of New York Press, Albany
- Swarat, S., Light, G., Park, E-J., & Drane, D. (in press). A Typology of Undergraduate Students' Conceptions of Size and Scale: Identifying and Characterizing Conceptual Variation, Journal of Research in Science Teaching.
- Tretter, T. R., Jones, M. G., Andre, T., Negishi, A., & Minogue, J. (2006). Conceptual boundaries and distances: Students' and experts' concepts of the scale of scientific phenomena. Journal of Research in Science Teaching, 43(3). 282-319. https://doi.org/10.1002/tea.20123
- Turnbull, H. W. (1969). The great mathematicians. New York: New York University Press.
- Watters, D. J., & Watters, J. J. (2006). Student understanding of pH: "I don't know what the log actually is, I only know where the button is on my calculator". Biochemistry and Molecular Biology Education, 34(4). 278-284. https://doi.org/10.1002/bmb.2006.494034042628
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