Issue 1, 2019

TMI (Too much information)! Effects of given information on organic chemistry students’ approaches to solving mechanism tasks

Abstract

We report our qualitative study of twenty-four students enrolled in the second-semester of a second-year undergraduate (sophomore-level) organic chemistry course, Organic Two. We asked the research participants to propose the product and electron-pushing mechanism of elementary mechanistic steps in the absence and presence of the corresponding overall transformation. We also asked the students about their preferences of representational systems when working on tasks common to Organic Two to ascertain the extent to which an external representation, rather than a task, might evoke a problem-solving strategy. In addition to familiarity to instructional materials, the main reason for which the students preferred line-angle formulas for nearly all of the task types is that the representational system allowed them most readily extract relevant, or otherwise useful, information without distracting them. However, line-angle formulas did not seem to cue students to the three-dimensional attributes of molecules; only dash-and-wedge structures and Newman and chair conformers did so. For the electron-pushing tasks, the research participants’ reasoning processes included at least some chemical characteristics of the species involved in the transformation when they were not given the product of reaction. When provided with the overall transformation, however, the students changed their focus to getting to the product. Consequently, they replaced correct answers with incorrect ones when given the reaction products. These results raise the possibility that traditional mechanism tasks may mask students’ mechanistic reasoning ability.

Article information

Article type
Paper
Submitted
27 Aug 2018
Accepted
08 Oct 2018
First published
08 Oct 2018

Chem. Educ. Res. Pract., 2019,20, 213-228

TMI (Too much information)! Effects of given information on organic chemistry students’ approaches to solving mechanism tasks

V. DeCocq and G. Bhattacharyya, Chem. Educ. Res. Pract., 2019, 20, 213 DOI: 10.1039/C8RP00214B

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