Chemistry Teacher International (Oct 2023)

An exploration of the proton NMR problem-solving approaches of undergraduate students

  • Gamage Sujani,
  • Stanley Raven,
  • Cui Jianmei,
  • Mooring Suazette

DOI
https://doi.org/10.1515/cti-2023-0026
Journal volume & issue
Vol. 5, no. 4
pp. 447 – 470

Abstract

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Problem-solving is an important component of chemistry teaching and learning. It often requires both conceptual knowledge and problem-solving skills. This study aims to examine how students solve tasks related to proton 1H NMR spectroscopy. This study included 24 voluntary participants enrolled in second-semester organic chemistry labs in two different instructional settings (online or in person). The data were collected through interviews conducted via Webex video conferencing software and used a think-aloud protocol. The data were analyzed using an inductive coding approach to identify students’ problem-solving approaches and resources they used when solving a given 1H NMR task that involved matching protons in a compound to specific peaks in the spectrum. The resources framework was used to capture students’ conceptual resources and problem-solving approaches. Results revealed that participants used more productive approaches than unproductive approaches while solving the problem; however, most students relied on one basic NMR concept to draw conclusions about the identity of a given peak. Also, when we observed the problem-solving resources that students utilized based on how they received NMR instruction (online or in-person), we did not observe major differences between the problem-solving resources that students used.

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