Does speed provide a 'model for' rate of change in other contexts? Does JavaMathWorlds (JMW), animated simulation software, assist in the development of the 'model for' rate of change? This project investigates the transference of understandings of rate gained in a motion context to a non-motion context. Students were 27 14-15 year old students at an Australian secondary school. The instructional sequence, utilising JMW, provided rich learning experiences of rate of change in the context of a moving elevator. This context connects to students' prior knowledge. The data taken from pre-and post-tests and student interviews revealed a wide variation in students' understanding of rate of change. The variation was mapped on a hypothetical learning trajectory and interpreted in the terms of the 'emergent models' theory (Gravemeijer, Math Think Learn 1(2): 1999) and illustrated by specific examples from the data. The results demonstrate that most students were able to use the 'model of' rate of change developed in a vertical motion context as a 'model for' rate of change in a horizontal motion context. A smaller majority of students were able to use their, often incomplete, 'model of' rate of change as a 'model for' reasoning about rate of change in a non-motion context.
Rate is an important, but difficult, mathematical concept. Despite more than 20 years of research, especially with calculus students, difficulties are reported with this concept. This paper reports the results from analysis of data from 20 Australian Grade 10 students. Interviews targeted students' conceptions of rate, focussing on the influence of representation and context on their expression of their understanding of rate. This analysis shows that different representations of functions provide varying levels of rate-related information for individual students. Understandings of rate in one representation or context are not necessarily transferred to another representation or context. Rate is an important, but commonly misunderstood, mathematical concept with many everyday applications (Swedosh, Dowsey, Caruso, Flynn, & Tynan, 2007). It is a complicated concept comprising many interwoven ideas such as the ratio of two numeric, measurable quantities but in a context where both quantities are changing. In mathematics classes, this is commonly expressed as change in the dependent variable resulting from a unit change in the independent variable, and variously described as constant or variable rate; average or instantaneous rate. In addition, rate may be seen as a purely abstract mathematical notion or embedded in the understanding of real-world applications. This paper explores the research question: Are students' expressions of their conceptions of rate affected by either context or mathematical representation? This question was part of a larger study (Herbert, 2010) conducted with Grade 10 students from the Australian state of Victoria.
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