Abstract
Much attention has been paid to computational thinking (CT) as a problem-solving approach across various curricula, particularly in mathematics. Most studies solely used a digital instrument or examined transfer of program solving ability, neglecting the mathematics knowledge domain or how the novel digital instrument functions alongside the dominant paper-and-pencil instrument in a classroom. Using Instrument-Mediated Activity Theory, our qualitative case study compares how secondary level students appropriated computer programming (as a means of using CT) and paper-and-pencil instruments to solve mathematics textbook word problems, via the analysis of three cases. Our results show that each instrument privileged certain ways of thinking that, by extension, de-emphasized others. The finding implies that teachers seeking to introduce computational concepts should be aware of an epistemic clash arising from the long-term use of paper-and-pencil for solving mathematics problems. We suggest that a more effective way to bring CT into secondary level mathematics is to introduce new types of problems or tasks that are less likely to interfere with the dominant instrument. Copyright © 2024 National Science and Technology Council, Taiwan.
Original language | English |
---|---|
Journal | International Journal of Science and Mathematics Education |
Early online date | Oct 2024 |
DOIs | |
Publication status | E-pub ahead of print - Oct 2024 |
Citation
Huang, W., Looi, C.-K., & Kim, M. (2024). A clash of epistemic tools: computer programming and paper-and-pencil in secondary school mathematics problem solving. International Journal of Science and Mathematics Education. Advance online publication. https://doi.org/10.1007/s10763-024-10512-zKeywords
- Computational thinking (CT)
- Computer programming
- Instrument-Mediated Activity Theory
- Mathematics problem solving
- Secondary education