
06297578
a
2014c.00742
Ellis, Amy
Ozgur, Zekiye
Kulow, Torrey
Dogan, Muhammed F.
Williams, Caroline
Amidon, Joel
An exponential growth learning trajectory.
Lindmeier, Anke M. (ed.) et al., Proceedings of the 37th conference of the International Group for the Psychology of Mathematics Education ``Mathematics learning across the life span", PME 37, Kiel, Germany, July 28August 2, 2013. Vol. 2. Kiel: IPNLeibniz Institute for Science and Mathematics Education at the University of Kiel (ISBN 9783890882888). 273280 (2013).
2013
Kiel: IPNLeibniz Institute for Science and Mathematics Education at the University of Kiel
EN
I20
C30
E50
exponential functions
exponential growth
learning trajectory
reasoning
instructional challenge
Summary: Exponential functions are an important topic in school algebra and in higher mathematics, but research on students' thinking suggests that understanding exponential growth remains an instructional challenge. This paper reports the results of a smallscale teaching experiment with students who explored exponential functions in the context of two continuously covarying quantities, height and time. We present a learning trajectory identifying three major stages of conceptions about exponential growth: prefunctional reasoning, covariational reasoning, and correspondence reasoning. The learning trajectory identifies relationships between these conceptions and the nature of the tasks that supported their development.